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The impact of oxidative stress and the NRF2-KEAP1-ARE signaling pathway on anticancer drug resistance

MdS VERZA, P Soni, GR Duddukuri +646 more · 2025 · Oncology Research · added 2026-04-20

MdS VERZA, P Soni, GR Duddukuri, F Bray, M Laversanne, H Sung, J Ferlay, RL Siegel, I Soerjomataram, R Malhotra, N Manoharan, SS Deo, S Bhatnagar, JE Carroll, JE Bower, PA Ganz, B Li, H Ming, S Qin, EC Nice, J Dong, Z Du, C Swanton, E Bernard, C Abbosh, F André, J Auwerx, A Balmain, LCP Dharshini, RR Rasmi, C Kathirvelan, KM Kumar, KM Saradhadevi, KM Sakthivel, K Li, Z Deng, C Lei, X Ding, J Li, C Wang, M Neganova, J Liu, Y Aleksandrova, S Klochkov, R Fan, Y Ren, R Wang, S Weng, H Xu, Y Zhang, S Chen, FU Vaidya, A Sufiyan Chhipa, V Mishra, VK Gupta, SG Rawat, A Kumar, M Cai, XL Song, XA Li, M Chen, J Guo, DH Yang, D Dima, D Jiang, DJ Singh, M Hasipek, HS Shah, F Ullah, ET Bin, A Shahriar, AR Mahmud, T Rahman, MH Abir, MFR Siddiquee, S Milewska, K Niemirowicz-Laskowska, G Siemiaszko, P Nowicki, AZ Wilczewska, H Car, WMC van den Boogaard, DSJ Komninos, WP Vermeij, J Moon, I Kitty, K Renata, F Zhao, W Kim, N Chatterjee, GC Walker, R Huang, PK Zhou, FJ Groelly, M Fawkes, RA Dagg, AN Blackford, M Tarsounas, CJ Lord, A Ashworth, ZE Karanjawala, U Grawunder, CL Hsieh, MR Lieber, E Ryan, R Hollingworth, R Grand, US Srinivas, BWQ Tan, BA Vellayappan, AD Jeyasekharan, Y Baiken, D Kanayeva, S Taipakova, R Groisman, AA Ishchenko, D Begimbetova, L Sarmini, M Meabed, E Emmanouil, G Atsaves, E Robeska, BT Karwowski, S Neri, S Guidotti, C Bini, S Pelotti, S D’Adamo, M Minguzzi, T Murmann-Konda, A Soni, M Stuschke, G Iliakis, H Sies, VV Belousov, NS Chandel, MJ Davies, DP Jones, GE Mann, Y Wang, F Li, L Mao, Y Liu, AE Vendrov, MD Stevenson, A Lozhkin, T Hayami, NA Holland, X Yang, MT Keeney, EM Rocha, EK Hoffman, K Farmer, R Di Maio, J Weir, K Wu, AE El Zowalaty, VI Sayin, T Papagiannakopoulos, B Zhang, C Pan, C Feng, C Yan, Y Yu, Z Chen, JYS Lim, JQ Eu, AKMH Chan, BC Goh, L Wang, V Purohit, DM Simeone, CA Lyssiotis, MJ Iqbal, A Kabeer, Z Abbas, HA Siddiqui, D Calina, J Sharifi-Rad, V Shah, HY Lam, CHM Leong, R Sakaizawa, JS Shah, AP Kumar, X An, W Yu, D Tang, L Yang, X Chen, L Sun, N Ouyang, S Shafi, R Zhao, J Pan, L Hong, J Xie, Z Lai, X Zheng, H Liao, Y Xian, Q Li, JN Rana, S Mumtaz, EH Choi, I Han, D Averill-Bates, A Mohsin, K Haneef, A Ilyas, S Zarina, Z Hashim, N Sadeghi, G Boissonneault, M Tavalaee, MH Nasr-Esfahani, M Labrie, JS Brugge, GB Mills, IK Zervantonakis, C Glorieux, S Liu, D Trachootham, P Huang, B Farhood, M Najafi, E Salehi, N Hashemi Goradel, MS Nashtaei, N Khanlarkhani, KF Zahra, R Lefter, A Ali, EC Abdellah, C Trus, A Ciobica, M Wang, M Chang, C Li, Q Chen, Z Hou, B Xing, A O’Reilly, W Zhao, S Wickström, ESJ Arnér, R Kiessling, S Murakami, Y Kusano, K Okazaki, T Akaike, H Motohashi, F Chen, M Xiao, S Hu, MT Bayo Jimenez, K Frenis, O Hahad, S Steven, G Cohen, A Cuadrado, A Namani, Y Li, XJ Wang, X Tang, T Sengoku, M Shiina, K Suzuki, K Hamada, K Sato, A Uchiyama, M McMahon, N Thomas, K Itoh, M Yamamoto, JD Hayes, W Tian, M Rojo de la Vega, CJ Schmidlin, A Ooi, DD Zhang, Y Katoh, K Iida, MI Kang, A Kobayashi, M Mizukami, KI Tong, S Fourquet, R Guerois, D Biard, MB Toledano, A Raghunath, K Sundarraj, R Nagarajan, F Arfuso, J Bian, JW Kaspar, SK Niture, AK Jaiswal, MY Song, DY Lee, KS Chun, EH Kim, L Liang, M Matsumoto, K Iwata, A Umemura, F He, S Adinolfi, T Patinen, A Jawahar Deen, S Pitkänen, J Härkönen, E Kansanen, N Wakabayashi, T Ishii, K Igarashi, JD Engel, SC Lo, X Li, MT Henzl, LJ Beamer, M Hannink, YS Keum, B Choi, P Canning, FJ Sorrell, AN Bullock, T Clifford, JP Acton, SP Cocksedge, KAB Davies, SJ Bailey, M Thiruvengadam, B Venkidasamy, U Subramanian, R Samynathan, M Ali Shariati, M Rebezov, M Ruwali, R Shukla, M Hayashi, T Papgiannakopoulos, H Robertson, AT Dinkova-Kostova, K Taguchi, SB Lee, BN Sellers, GM DeNicola, YC Tang, YJ Chuang, HH Chang, SH Juang, GC Yen, JY Chang, S Kalthoff, U Ehmer, N Freiberg, MP Manns, CP Strassburg, JF Lin, ZX Liu, DL Chen, RZ Huang, F Cao, K Yu, Z Zhu, S Du, Y Du, J Ren, G Ying, Z Yan, C Biswas, N Shah, M Muthu, P La, AP Fernando, S Sengupta, FJ Lei, JY Chiang, HJ Chang, DC Chen, HL Wang, HA Yang, TW Kensler, L Baird, S Dayalan Naidu, TH Rushmore, MR Morton, CB Pickett, R Venugopal, P Nioi, T Chiba, S Takahashi, JL Xiao, HY Liu, CC Sun, CF Tang, W Tu, H Wang, S Li, Q Liu, H Sha, P Stenvinkel, CJ Meyer, GA Block, GM Chertow, PG Shiels, AV Ulasov, AA Rosenkranz, GP Georgiev, AS Sobolev, A Uruno, X Luo, X Zhu, Y Chen, B Xu, X Bai, DJ Schaer, N Schulthess-Lutz, L Baselgia, K Hansen, RM Buzzi, R Humar, X Wang, S Su, Y Zhu, X Cheng, C Cheng, L Chen, FV Reinema, FCGJ Sweep, GJ Adema, WJM Peeters, JWM Martens, J Bussink, D Karagiannis, W Wu, A Li, M Yip, C Gur, FM Kandemir, C Caglayan, E Satıcı, D Sapochnik, AR Raimondi, V Medina, J Naipauer, EA Mesri, O Coso, Y Pu, Y Tan, C Zang, C Cai, L Kong, HH Chen, JY Yao, YT Chen, A Sharma, AK Singh, AA Osman, E Arslan, M Bartels, C Michikawa, A Lindemann, K Tomczak, MA Skowron, G Niegisch, P Albrecht, G van Koeveringe, A Romano, P Albers, H Zhang, J Xu, Y Long, A Maimaitijiang, Z Su, W Li, IC Taritsa, ET Fossel, A Garufi, G Pistritto, V D’Orazi, M Cirone, G D’Orazi, K Lisek, E Campaner, Y Ciani, D Walerych, G Del Sal, A Nazari, P Osati, S Seifollahy Fakhr, F Faghihkhorasani, M Ghanaatian, X Gu, C Mu, R Zheng, Z Zhang, Q Zhang, T Liang, J Wang, J Yang, M Cao, Z Zhao, B Cao, S Yu, D Xue, X Zhou, J Qiu, X Hou, M Huang, J Jin, S Dastghaib, SM Shafiee, F Ramezani, N Ashtari, F Tabasi, J Saffari-Chaleshtori, M Oskomić, A Tomić, L Barbarić, A Matić, DC Kindl, M Matovina, MH Nguyen, NYT Nguyen, YS Chen, HT Nguyen Le, HT Vo, CH Yen, S Mirzaei, A Zarrabi, F Hashemi, A Zabolian, H Saleki, N Azami, L Lin, Q Wu, F Lu, J Lei, Y Zhou, J Krishnaraj, T Yamamoto, R Ohki, G Barrera, MA Cucci, M Grattarola, C Dianzani, G Muzio, S Pizzimenti, L Mosca, A Ilari, F Fazi, YG Assaraf, G Colotti, Z Wang, B Yang, Y Xie, Feng S ling, PY Yan, XJ Yao, XX Fan, L Gan, W Wang, J Jiang, K Tian, W Liu, Z Cao, S Karathedath, BM Rajamani, SM Musheer Aalam, A Abraham, S Varatharajan, P Krishnamurthy, C Monge, A Roetto, E Caputo, M Sorice, E Profumo, A Capozzi, S Recalchi, G Riitano, B Di Veroli, P Paramasivan, IH Kankia, SP Langdon, YY Deeni, R Srivastava, R Fernández-Ginés, JA Encinar, G Wells, P Wadowski, M Juszczak, K Woźniak, E Crisman, P Duarte, E Dauden, MI Rodríguez-Franco, MG López, D Zhang, KE Aldrich, L Lockwood, AL Odom, KT Liby, R Afjei, N Sadeghipour, SU Kumar, M Pandrala, V Kumar, SV Malhotra, K Gall Trošelj, M Tomljanović, M Jaganjac, T Matijević Glavan, A Čipak Gašparović, L Milković, M Poornashree, H Kumar, R Ajmeer, R Jain, V Jain, F Pouremamali, A Pouremamali, M Dadashpour, N Soozangar, F Jeddi, W Chen, Z Sun, T Jiang, Z Huang, D Fang, M Robert, BK Kennedy, KC Crasta, S Tao, A Lau, MS Joo, SB Shin, EJ Kim, HJ Koo, H Yim, SG Kim, X Liu, N Hu, RJ Mailloux, U Jakob, J Pi, JW Kupiec-Weglinski Show less

Cancer remains a major global health burden, with rising incidence and mortality linked to aging populations and increased exposure to genotoxic agents. Oxidative stress plays a critical role in cance Show more

Cancer remains a major global health burden, with rising incidence and mortality linked to aging populations and increased exposure to genotoxic agents. Oxidative stress plays a critical role in cancer development, progression, and resistance to therapy. The nuclear factor erythroid 2-related factor 2 (NRF2)-Kelch-like ECH-associated protein 1 (KEAP1)-antioxidant response element (ARE) signaling pathway is central to maintaining redox balance by regulating the expression of antioxidant and detoxification genes. Under physiological conditions, this pathway protects cells from oxidative damage, however, sustained activation of NRF2 in cancer, often due to mutations in KEAP1, supports tumor cell survival, drug resistance, and metabolic reprogramming. Recent studies demonstrate that NRF2 enhances glutathione (GSH) synthesis, induces detoxifying enzymes, and upregulates drug efflux transporters, collectively contributing to resistance against chemotherapy and targeted therapies. The inhibition of NRF2 using small molecules or dietary phytochemicals has shown promise in restoring drug sensitivity in preclinical cancer models. This review highlights the dual role of NRF2 in redox regulation and cancer therapy, emphasizing its potential as a therapeutic target. While targeting NRF2 offers a novel approach to overcoming treatment resistance, further research is needed to enhance specificity and facilitate clinical translation. Show less

📄 PDF DOI: 10.32604/or.2025.065755

ROS amino-acid anticancer review synthesis

Cellular Discrepancy of Platinum Complexes in Interfering with Mitochondrial DNA.

Suxing Jin, Yafeng He, Chenyao Feng +4 more · 2025 · ACS Central Science · ACS Publications · added 2026-04-20

Suxing Jin, Yafeng He, Chenyao Feng, Jian Yuan, Yan Guo, Zijian Guo, Xiaoyong Wang Show less

Mitochondria are associated with cellular energy metabolism, proliferation, and mode of death. Damage to mitochondrial DNA (mtDNA) greatly affects mitochondrial function by interfering with energy pro Show more

Mitochondria are associated with cellular energy metabolism, proliferation, and mode of death. Damage to mitochondrial DNA (mtDNA) greatly affects mitochondrial function by interfering with energy production and the signaling pathway. Monofunctional trinuclear platinum complex MTPC demonstrates different actions on the mtDNA of cancerous and normal cells. It severely impairs the integrity and function of mitochondria in the human lung cancer A549 cells, such as dissipating mitochondrial membrane potential, decreasing the copy number of mtDNA, interfering in nucleoid proteins and polymerase gamma gene, reducing adenosine triphosphate (ATP), and inducing mitophagy, whereas it barely affects the mtDNA of the human kidney 2 (HK-2) cells. Moreover, MTPC promotes the release of mtDNA into the cytosol and stimulates the cyclic GMP-AMP synthase-stimulator of interferon genes (cGAS-STING) pathway, thus showing the potential to trigger antitumor immunity. MTPC displays significant cytotoxicity against A549 cells, while it exhibits weak toxicity toward HK-2 cells, therefore displaying great advantage to overcome the lingering nephrotoxicity of platinum anticancer drugs. Discrepant effects of a metal complex on mitochondria of different cells mean that targeting mitochondria has special significance in cancer therapy. Show less

no PDF DOI: 10.1021/acscentsci.4c01941

A549 Pt anticancer coordination-chemistry mitochondria

Carnitine O-Acetyltransferase as a Central Player in Lipid and Branched-Chain Amino Acid Metabolism, Epigenetics, Cell Plasticity, and Organelle Function

L. Volpicella, G. Punzi, V. Porcelli +494 more · 2025 · Biomolecules · MDPI · added 2026-04-20

L. Volpicella, G. Punzi, V. Porcelli, N. Gambacorta, L. Trisolini, C.L. Pierri, A. De Grassi, D.M. Muoio, R.C. Noland, J.P. Kovalik, S.E. Seiler, M.N. Davies, K.L. Debalsi, O.R. Ilkayeva, R.D. Stevens, I. Kheterpal, J. Zhang, J. Hsu, N. Fatuzzo, N. Weng, W. Michno, W. Dong, M. Kienle, Y. Dai, A. Pasca, M. Abu-Remaileh, N. Rasgon, R.R. Ramsay, R.D. Gandour, F.R. van der Leij, M.A.K. Westin, M.C. Hunt, S.E.H. Alexson, O.J. Martin, D.H. Slentz, J. An, C.B. Newgard, T.R. Koves, K.H. Fisher-Wellman, C.-T. Lin, T.E. Ryan, L.R. Reese, L.A.A. Gilliam, B.L. Cathey, D.S. Lark, C.D. Smith, P.D. Neufer, J.R. Gooding, K.E. Wong, A.H. Wittmann, L. Lindeboom, L. Kjalarsdottir, J.W. Thompson, L.G. Dubois, M.J. Brosnan, T.P. Rolph, P.A. Grimsrud, V. Mezhnina, R. Pearce, A. Poe, N. Velingkaar, A. Astafev, O.P. Ebeigbe, K. Makwana, Y. Sandlers, R.V. Kondratov, M.A.B. Melone, A. Valentino, S. Margarucci, U. Galderisi, A. Giordano, G. Peluso, N.D. Amoedo, S. Sarlak, E. Obre, P. Esteves, H. Bégueret, Y. Kieffer, B. Rousseau, A. Dupis, J. Izotte, N. Bellance, N. Giangregorio, A. Tonazzi, G. Incampo, V. Tragni, C. Indiveri, G. Fiermonte, E. Paradies, S. Todisco, C.M.T. Marobbio, F. Palmieri, T. Haitina, J. Lindblom, T. Renström, R. Fredriksson, A. Vozza, F. De Leonardis, G. Parisi, F.M. Lasorsa, L. Muto, L. Capobianco, G. Agrimi, A. Russo, P. Scarcia, V.A. Zammit, G. Jogl, L. Tong, A.C. Rufer, R. Thoma, M. Hennig, Y.S. Hsiao, I. Lasheras-Otero, I. Feliu, A. Maillo, H. Moreno, M. Redondo-Muñoz, P. Aldaz, A. Bocanegra, A. Olias-Arjona, F. Lecanda, J. Fernandez-Irigoyen, B. Musio, V. Pesce, M.M. Cavalluzzi, G. Petrosillo, G. La Piana, M.N. Sgobba, N. Schlosserová, L. Cafferati Beltrame, R. Di Lorenzo, G. Primiano, A. Tummolo, G. Paterno, R. Gorgoglione, M. Volpicella, V. Iacobazzi, V. Infantino, P. Convertini, L. Console, C. Lanave, C. Saccone, S.M. Houten, R.J.A. Wanders, D. Lacombe, R. Rossignol, C. Caggese, D. D’Elia, G. Pesole, M. Montaruli, L. Laera, F. Colella, V. Scaglione, S. Barile, A.L. Francavilla, D.I. De Luca, X. Wang, C. Yang, C. Huang, W. Wang, G. Chen, B. Bao, Y. Cheng, M. Tian, J. Song, L. Zheng, Q. Tong, R. Vishwa, B. BharathwajChetty, S. Girisa, B.S. Aswani, M.S. Alqahtani, M. Abbas, M. Hegde, A.B. Kunnumakkara, L.T.M. Le, J.R. Thompson, P.X. Dang, J. Bhandari, A. Alam, K. Zacharowski, B. Blackburn, C. Thiemermann, R. Shi, Y. Zhang, Y. Shi, S. Shi, L. Jiang, K. Jaudzems, J. Kuka, A. Gutsaits, K. Zinovjevs, I. Kalvinsh, E. Liepinsh, M. Dambrova, M. Tsoko, F. Beauseigneur, J. Gresti, I. Niot, J. Demarquoy, J. Boichot, J. Bezard, L. Rochette, P. Clouet, M. Kuwajima, H. Harashima, M. Hayashi, S. Ise, M. Sei, K.-m. Lu, H. Kiwada, Y. Sugiyama, K. Shima, D.L. Jenkins, O.W. Griffith, L.T. Izzo, S. Trefely, C. Demetriadou, J.M. Drummond, T. Mizukami, N. Kuprasertkul, A.T. Farria, P.T.T. Nguyen, N. Murali, L. Reich, H. Mao, A. Angelini, S. Li, G. Wang, L. Li, C. Patterson, X. Pi, L. Xie, A.G. Cordente, E. López-Viñas, M.I. Vázquez, P. Gómez-Puertas, G. Asins, D. Serra, F.G. Hegardt, L. Govindasamy, T. Kukar, W. Lian, B. Pedersen, Y. Gu, M. Agbandje-McKenna, S. Jin, R. McKenna, D. Wu, A.R. Kim, R.J. Rylett, B.H. Shilton, Y. Cai, C.N. Cronin, A.G. Engel, K. Ohno, L.B. Hersh, D.W. Rodgers, J.D. McGarry, N.F. Brown, A. Mattevi, A.M. Waterhouse, J.B. Procter, D.M.A. Martin, M. Clamp, G.J. Barton, M.A. Larkin, G. Blackshields, N.P. Brown, R. Chenna, P.A. McGettigan, H. McWilliam, F. Valentin, I.M. Wallace, A. Wilm, R. Lopez, J.F. Chase, S. Violante, L. Ijlst, J. Ruiter, J. Koster, H. van Lenthe, M. Duran, I.T. de Almeida, F.V. Ventura, P.K. Tubbs, M. Morillas, B. Rubí, J. Clotet, J. Ariño, A. Valencia, K. Kashfi, R.L. Mynatt, E.A. Park, G.A. Cook, R.J. Wanders, W.L. Delano, S. Bromberg, A.C. Wallace, R.A. Laskowski, J.M. Thornton, T.R. Altamimi, P.D. Thomas, A.M. Darwesh, N. Fillmore, M.U. Mahmoud, L. Zhang, A. Gupta, R. Al Batran, J.M. Seubert, G.D. Lopaschuk, M.A. Schroeder, H.J. Atherton, M.S. Dodd, P. Lee, L.E. Cochlin, G.K. Radda, K. Clarke, D.J. Tyler, A. Pop, M. Williams, E.A. Struys, M. Monné, E.E.W. Jansen, W.A. Kanhai, M.R.F. Ojeda, A. Tessa, C. Dionisi-Vici, M.R. Baumgartner, Y.H. Chien, C. Loguercio, H.O. De Baulny, M.-C. Nassogne, M. Schiff, R. Wibom, V. Töhönen, M. Barbaro, F.H. Sterky, T. Kucinski, K. Naess, M. Jonsson, S. Edvardson, C. Jalas, D. Soiferman, Y. Kellner, A. Shaag, S.H. Korman, N.D. Fraenkel, M. Ruggiu, M.F. Hossain, A. Menga, A. Castegna, F. Invernizzi, S. Baratta, R. Pons, W. Chung, B. Garavaglia, A. Ribes, R. Parini, M.D. Huertas, M.A. Shahroor, I. Dweikat, M.A. Di Noia, M. Gur, G. Agostino, T. Rinaldi, G. Gasparre, A. Onofrio, G. Redavid, A. Santarsiero, N.C. Williams, D. Iacobazzi, G. De Stefano, L.A.J. O’Neill, X. Li, F. Zhao, Z. Zhao, X. Zhao, H. Meng, D. Zhang, S. Zhao, M. Ding, C. Amat di San Filippo, M.R.G. Taylor, L. Mestroni, L.D. Botto, N. Longo, K. Gotvaldová, J. Špačková, K. Smolková, G. Benard, F. Furt, H. Begueret, E. Passerieux, J.P. Delage, J.M. Baste, P. Moreau, J. Novotný, K. Baslarová, P. Ježek, L. Rossmeislová, J. Gojda, E.M. Palmieri, R. Holewinski, C.L. McGinity, N. Maio, J.M. Weiss, K.M. Miranda, T.A. Rouault, T. Andresson, S. Sharma, X. Sun, S. Agarwal, R. Rafikov, S. Dasarathy, S. Kumar, S.M. Black, J.M. Rutkowsky, T.A. Knotts, K.D. Ono-Moore, C.S. McCoin, S. Huang, D. Schneider, S. Singh, S.H. Adams, D.H. Hwang, L. Amadori, C. Calcagno, D.M. Fernandez, S. Koplev, N. Fernandez, R. Kaur, P. Mury, N.S. Khan, S. Sajja, R. Shamailova, A. Ta-Shma, P. Stepensky, S. Zenvirt, O. Elpeleg, A.J.J.T. Rein, T. Hu, C.H. Liu, M. Lei, Q. Zeng, H. Tang, N. Zhang, C. Garcia, C.J. Andersen, C.N. Blesso, M. Wang, K. Wang, X. Liao, H. Hu, L. Chen, L. Meng, W. Gao, Q. Li, G. Ghilardi, L. Paruzzo, J. Svoboda, E.A. Chong, A.A. Shestov, I.J. Cohen, G. Gabrielli, S.D. Nasta, P. Porazzi, J.B. Baell, J.W.M. Nissink, N. Wiedemar, D.A. Hauser, P. Mäser, M. Favia, A. Muscella, L. Guerra, C. Jose, T. Zhao, X. Mu, Q. You, A.D.R. Campos-Contreras, M. Díaz-Muñoz, F.G. Vázquez-Cuevas, L. Nicassio, F. Fracasso, G. Sirago, C. Musicco, A. Picca, E. Marzetti, R. Calvani, P. Cantatore, M.N. Gadaleta, P. Cassano, A.M.S. Lezza, V. Capelli, A.M. Timperio, M. Calvani, L. Mosconi Show less

Carnitine O-acetyltransferase (CRAT) is a key mitochondrial enzyme involved in maintaining metabolic homeostasis by mediating the reversible transfer of acetyl groups between acetyl-CoA and carnitine. Show more

Carnitine O-acetyltransferase (CRAT) is a key mitochondrial enzyme involved in maintaining metabolic homeostasis by mediating the reversible transfer of acetyl groups between acetyl-CoA and carnitine. This enzymatic activity ensures the optimal functioning of mitochondrial carbon flux by preventing acetyl-CoA accumulation, buffering metabolic flexibility, and regulating the balance between fatty acid and glucose oxidation. CRAT’s interplay with the mitochondrial carnitine shuttle, involving carnitine palmitoyltransferases (CPT1 and CPT2) and the carnitine carrier (SLC25A20), underscores its critical role in energy metabolism. Emerging evidence highlights the structural and functional diversity of CRAT and structurally related acetyltransferases across cellular compartments, illustrating their coordinated role in lipid metabolism, amino acid catabolism, and mitochondrial bioenergetics. Moreover, the structural insights into CRAT have paved the way for understanding its regulation and identifying potential modulators with therapeutic applications for diseases such as diabetes, mitochondrial disorders, and cancer. This review examines CRAT’s structural and functional aspects, its relationships with carnitine shuttle members and other carnitine acyltransferases, and its broader role in metabolic health and disease. The potential for targeting CRAT and its associated pathways offers promising avenues for therapeutic interventions aimed at restoring metabolic equilibrium and addressing metabolic dysfunction in disease states. Show less

📄 PDF DOI: 10.3390/biom15020216

amino-acid mitochondria review

Hypoxia studies in non‑small cell lung cancer: Pathogenesis and clinical implications (Review)

H Zhou, J Ferlay, RL Siegel +660 more · 2025 · Oncology Reports · added 2026-04-20

H Zhou, J Ferlay, RL Siegel, M Laversanne, I Soerjomataram, A Jemal, F Bray, PS Steeg, KD Miller, HE Fuchs, FX Xu, YL Zhang, JJ Liu, DD Zhang, HB Chen, K Saxena, MK Jolly, JA Bertout, SA Patel, MC Simon, X Meng, FM Kong, J Yu, A Challapalli, L Carroll, EO Aboagye, DC Hinshaw, LA Shevde, P Desai, N Takahashi, R Kumar, S Nichols, J Malin, A Hunt, C Schultz, Y Cao, D Tillo, D Nousome, FF Tam, KL Ning, M Lee, JM Dumlao, JC Choy, AA Tirpe, D Gulei, SM Ciortea, C Crivii, I Berindan-Neagoe, EB Rankin, AJ Giaccia, GN Masoud, W Li, Y Della Rocca, L Fonticoli, TS Rajan, O Trubiani, S Caputi, F Diomede, J Pizzicannella, GD Marconi, SG Zeng, X Lin, JC Liu, J Zhou, RY Hapke, SM Haake, S Musleh Ud Din, SG Streit, BT Huynh, C Hana, AN Abraham, A Hussein, S Liu, Y Zhan, J Luo, J Feng, J Lu, H Zheng, Q Wen, S Fan, C Wang, S Xu, X Yang, W Luo, H Hu, R Chang, J Zhong, M Knabel, R O'Meally, RN Cole, A Pandey, GL Semenza, Y Wei, D Wang, F Jin, Z Bian, L Li, H Liang, M Li, L Shi, C Pan, D Zhu, X Ji, R Zhu, C Gao, H Xie, X Gong, H Jiang, H Zhao, M Zhang, Y He, X Li, Y Xu, X Liu, S Jiang, R Wang, H Yan, L Jin, X Dou, D Chen, V Becker, X Yuan, AS Boewe, E Ampofo, E Ebert, J Hohneck, RM Bohle, E Meese, Y Zhao, MD Menger, J Zhao, CR Qiao, Z Ding, YL Sheng, XN Li, Y Yang, DY Zhu, CY Zhang, DL Liu, K Wu, S Zhao, C Han, Y Zhang, F Liu, J Ren, HL Yin, HW Xu, QY Lin, RD Leone, JD Powell, Z Yu, J Zou, F Xu, J Jin, G Yu, J Gu, S Yang, X Wang, Y Wu, J Wei, J Xu, AL Jackson, B Zhou, WY Kim, KL Eales, KER Hollinshead, DA Tennant, E Dai, W Wang, Y Li, D Ye, R Courtnay, DC Ngo, N Malik, K Ververis, SM Tortorella, TC Karagiannis, F Luo, N Yan, S Li, G Cao, Q Cheng, Q Xia, H Wang, S Shang, MZ Wang, Z Xing, N He, H Nisar, PM Sanchidrián González, M Brauny, FM Labonté, C Schmitz, MD Roggan, B Konda, CE Hellweg, Z Guo, L Hu, Q Wang, Y Wang, XP Liu, C Chen, W Hu, X Zhang, C Liang, C Wu, S Wan, L Xu, S Wang, J Wang, X Huang, C Zhang, L Zhou, Y Du, C Li, H Ren, L Zheng, PE Porporato, N Filigheddu, JMB Pedro, G Kroemer, L Galluzzi, OT Brustugun, RX Huang, PK Zhou, H Chen, Z Han, Q Luo, Q Li, H Zuo, L Gong, C Liu, S Han, T Zhou, LY Zhang, JZ He, ZM Miao, YY Li, YM Zhang, ZW Liu, SZ Zhang, Y Chen, GC Zhou, YQ Liu, LH Gray, AD Conger, M Ebert, S Hornsey, OC Scott, AB Herrera-Campos, E Zamudio-Martinez, D Delgado-Bellido, M Fernández-Cortés, LM Montuenga, FJ Oliver, A Garcia-Diaz, Q Guo, F Lan, X Yan, Z Xiao, Q Zhang, S Roy, S Kumaravel, A Sharma, CL Duran, KJ Bayless, S Chakraborty, CY Hu, CF Hung, PC Chen, JY Hsu, CT Wang, MD Lai, YS Tsai, AL Shiau, GS Shieh, CL Wu, A Mancino, T Schioppa, P Larghi, F Pasqualini, M Nebuloni, IH Chen, S Sozzani, JM Austyn, A Mantovani, A Sica, X Peng, J Huang, Y Tao, HK Eltzschig, LF Thompson, J Karhausen, RJ Cotta, JC Ibla, SC Robson, SP Colgan, J Li, L Wang, X Chen, Y Ping, L Huang, D Yue, Z Zhang, F Wang, SM An, HM Lei, XP Ding, F Sun, YB Tang, HZ Chen, Y Shen, L Zhu, A Kogita, Y Togashi, H Hayashi, S Sogabe, M Terashima, MA De Velasco, K Sakai, Y Fujita, S Tomida, Y Takeyama, S Karan, MY Cho, H Lee, HS Park, M Sundararajan, JL Sessler, KS Hong, MHY Cheng, Y Mo, G Zheng, LC Clark, R Wolf, D Granger, Z Taylor, X Sun, G Niu, N Chan, B Shen, MV Shirmanova, MM Lukina, MA Sirotkina, LE Shimolina, VV Dudenkova, NI Ignatova, S Tobita, VI Shcheslavskiy, EV Zagaynova, JM Vanderkooi, G Maniara, TJ Green, DF Wilson, CJ Koch, SM Evans, MR Horsman, BS Sørensen, M Busk, DW Siemann, C Huang, J Liang, X Lei, X Xu, L Luo, X Hu, J Gou, W Lin, F Yang, C Liao, D Nasri, R Manwar, A Kaushik, EE Er, K Avanaki, KA Krohn, JM Link, RP Mason, JR Brender, Y Saida, N Devasahayam, MC Krishna, S Kishimoto, I Godet, S Doctorman, F Wu, DM Gilkes, K Matsumoto, JB Mitchell, W Qin, C Xu, C Yu, S Shen, W Huang, DS Vikram, JL Zweier, P Kuppusamy, B Epel, MK Bowman, C Mailer, HJ Halpern, B Hao, H Dong, R Xiong, C Song, N Li, Q Geng, R Zhang, L Lai, J He, D You, W Duan, X Dong, Y Zhu, L Lin, C Ostheimer, M Bache, A Güttler, M Kotzsch, D Vordermark, A Giatromanolaki, AL Harris, AH Banham, CA Contrafouris, MI Koukourakis, H Geng, L Chen, S Lv, SJ Kim, ZN Rabbani, RT Vollmer, EG Schreiber, E Oosterwijk, MW Dewhirst, Z Vujaskovic, MJ Kelley, D Coppola, M Szabo, D Boulware, P Muraca, M Alsarraj, AF Chambers, TJ Yeatman, T Reese, K Stępień, RP Ostrowski, E Matyja, SW Kim, IK Kim, JH Ha, CD Yeo, HH Kang, JW Kim, SH Lee, O Thews, P Vaupel, M Heyboer, D Sharma, W Santiago, N McCulloch, LW Jones, BL Viglianti, JA Tashjian, SM Kothadia, ST Keir, SJ Freedland, MQ Potter, EJ Moon, T Schroeder, JE Herndon, S Jo, J Jeon, G Park, HK Do, J Kang, KJ Ahn, SY Ma, YM Choi, D Kim, B Youn, Y Ki, P Ghosh, C Vidal, S Dey, L Zhang, TM Ashton, WG McKenna, LA Kunz-Schughart, GS Higgins, B Kalyanaraman, G Cheng, M Hardy, M You, M Shameem, AJ Bagherpoor, A Nakhi, P Dosa, G Georg, F Kassie, M Skwarski, DR McGowan, E Belcher, F Di Chiara, D Stavroulias, M McCole, JL Derham, KY Chu, E Teoh, J Chauhan, M Benej, X Hong, S Vibhute, S Scott, J Wu, E Graves, QT Le, AC Koong, B Yu, S Sohoni, T Wang, SP Kalainayakan, PC Konduri, A Ashrafi, P Modareszadeh, N Salamat, PS Alemi, E Berisha, TW Secomb, V Sukhatme, G Bouche, L Meheus, VP Sukhatme, P Pantziarka, BJT Reymen, MW van Gisbergen, AJG Even, CML Zegers, M Das, E Vegt, JE Wildberger, FM Mottaghy, A Yaromina, LJ Dubois, PP Wong, N Bodrug, KM Hodivala-Dilke, S Guelfi, K Hodivala-Dilke, G Bergers, C Wigerup, S Påhlman, D Bexell, Y Xia, HK Choi, K Lee, L Iommarini, AM Porcelli, G Gasparre, I Kurelac, N Albadari, S Deng, J Ma, K Cao, X Ling, P Zhang, J Zhu, H Deng, P Li, Q Hang, Y Jin, M Chen, MS Lara, CM Blakely, JW Riess, H Zhu, S Zhang, W Tian, C Cao, L Shu, A Mahdi, B Darvishi, K Majidzadeh-A, M Salehi, L Farahmand, Z Xie, T Zou, JL Bryant, SL Meredith, KJ Williams, A White, WR Wilson, MP Hay, SX Chen, J Zhang, F Xue, W Liu, Y Kuang, B Gu, S Song, F Shepherd, G Koschel, J Von Pawel, U Gatzmeier, N Van Zandwiyk, P Woll, R Van Klavren, P Krasko, P Desimone, M Nicolson, L Marcu, I Olver, K Graham, E Unger, D Lindsay, CM Garvey, SM Mumenthaler, J Foo, C Meaney, GG Powathil, P Lambin, M Kohandel, BT Oronsky, SJ Knox, JJ Scicinski, B Oronsky, J Scicinski, S Ning, D Peehl, A Oronsky, P Cabrales, M Bednarski, S Knox, L Zhao, C Shen, Y Luo, X Hou, Y Qi, Z Huang, L Gao, M Wu, Y Zhou, X Feng, Z Wu, X Rao, R Zhou, R Meng, P Dey, R Das, S Chatterjee, R Paul, U Ghosh, Y Demizu, O Fujii, H Iwata, N Fuwa, SM Bentzen, V Gregoire, G Meijer, J Steenhuijsen, M Bal, K De Jaeger, D Schuring, J Theuws Show less

Non-small cell lung cancer (NSCLC) is one of the most prevalent and lethal types of cancers worldwide and its high incidence and mortality rates pose a significant public health challenge. Despite sig Show more

Non-small cell lung cancer (NSCLC) is one of the most prevalent and lethal types of cancers worldwide and its high incidence and mortality rates pose a significant public health challenge. Despite significant advances in targeted therapy and immunotherapy, the overall prognosis of patients with NSCLC remains poor. Hypoxia is a critical driving factor in tumor progression, influencing the biological behavior of tumor cells through complex molecular mechanisms. The present review systematically examined the role of the hypoxic microenvironment in NSCLC, demonstrating its crucial role in promoting tumor cell growth, invasion and metastasis. Additionally, it has been previously reported that the hypoxic microenvironment enhances tumor cell resistance by activating hypoxia-inducible factor and regulating exosome secretion. The hypoxic microenvironment also enables tumor cells to adapt to low oxygen and nutrient-deficient conditions by enhancing metabolic reprogramming, such as through upregulating glycolysis. Further studies have shown that the hypoxic microenvironment facilitates immune escape by modulating tumor-associated immune cells and suppressing the antitumor response of the immune system. Moreover, the hypoxic microenvironment increases tumor resistance to radiotherapy, chemotherapy and other types of targeted therapy through various pathways, significantly reducing the therapeutic efficacy of these treatments. Therefore, it could be suggested that early detection of cellular hypoxia and targeted therapy based on hypoxia may offer new therapeutic approaches for patients with NSCLC. The present review not only deepened the current understanding of the mechanisms of action and role of the hypoxic microenvironment in NSCLC but also provided a solid theoretical basis for the future development of precision treatments for patients with NSCLC. Show less

📄 PDF DOI: 10.3892/or.2024.8862

anticancer review

7-Dehydrocholesterol dictates ferroptosis sensitivity.

Yaxu Li, Qiao Ran, Qiuhui Duan +22 more · 2024 · Nature · Nature · added 2026-04-20

Ferroptosis, a form of regulated cell death that is driven by iron-dependent phospholipid peroxidation, has been implicated in multiple diseases, including cancer1-3, degenerative disorders4 and organ Show more

Ferroptosis, a form of regulated cell death that is driven by iron-dependent phospholipid peroxidation, has been implicated in multiple diseases, including cancer1-3, degenerative disorders4 and organ ischaemia-reperfusion injury (IRI)5,6. Here, using genome-wide CRISPR-Cas9 screening, we identified that the enzymes involved in distal cholesterol biosynthesis have pivotal yet opposing roles in regulating ferroptosis through dictating the level of 7-dehydrocholesterol (7-DHC)-an intermediate metabolite of distal cholesterol biosynthesis that is synthesized by sterol C5-desaturase (SC5D) and metabolized by 7-DHC reductase (DHCR7) for cholesterol synthesis. We found that the pathway components, including MSMO1, CYP51A1, EBP and SC5D, function as potential suppressors of ferroptosis, whereas DHCR7 functions as a pro-ferroptotic gene. Mechanistically, 7-DHC dictates ferroptosis surveillance by using the conjugated diene to exert its anti-phospholipid autoxidation function and shields plasma and mitochondria membranes from phospholipid autoxidation. Importantly, blocking the biosynthesis of endogenous 7-DHC by pharmacological targeting of EBP induces ferroptosis and inhibits tumour growth, whereas increasing the 7-DHC level by inhibiting DHCR7 effectively promotes cancer metastasis and attenuates the progression of kidney IRI, supporting a critical function of this axis in vivo. In conclusion, our data reveal a role of 7-DHC as a natural anti-ferroptotic metabolite and suggest that pharmacological manipulation of 7-DHC levels is a promising therapeutic strategy for cancer and IRI. Show less

no PDF DOI: 10.1038/s41586-023-06983-9

Fe mitochondria synthesis

Immunoengineering can overcome the glycocalyx armour of cancer cells - Nature Materials

Park, Sangwoo, Colville, Marshall J., Paek, Justin H. +16 more · 2024 · Nature Publishing Group · Nature · added 2026-04-20

Park, Sangwoo, Colville, Marshall J., Paek, Justin H., Shurer, Carolyn R., Singh, Arun, Secor, Erica J., Sailer, Cooper J., Huang, Ling-Ting, Kuo, Joe Chin-Hun, Goudge, Marc C., Su, Jin, Kim, Minsoo, DeLisa, Matthew P., Neelamegham, Sriram, Lammerding, Jan, Zipfel, Warren R., Fischbach, Claudia, Reesink, Heidi L., Paszek, Matthew J. Show less

A nanoscale polymer layer formed by mucins at the surface of tumour cells protects them against immune cell attack. This shield can be circumvented through immune cell engineering, using chimeric anti Show more

A nanoscale polymer layer formed by mucins at the surface of tumour cells protects them against immune cell attack. This shield can be circumvented through immune cell engineering, using chimeric antigen receptors to stimulate natural killer and T cells or by tethering glycocalyx-editing enzymes to immune cells. Show less

📄 PDF DOI: 10.1038/s41563-024-01808-0

cancer immune cell immune cell engineering immunoengineering

Role of hydrogen sulfide in health and disease.

Yu-Qing Jin, Hang Yuan, Ya-Fang Liu +7 more · 2024 · MedComm · Wiley · added 2026-04-20

Yu-Qing Jin, Hang Yuan, Ya-Fang Liu, Yi-Wen Zhu, Yan Wang, Xiao-Yi Liang, Wei Gao, Zhi-Guang Ren, Xin-Ying Ji, Dong-Dong Wu Show less

In the past, hydrogen sulfide (H2S) was recognized as a toxic and dangerous gas; in recent years, with increased research, we have discovered that H2S can act as an endogenous regulatory transmitter. Show more

In the past, hydrogen sulfide (H2S) was recognized as a toxic and dangerous gas; in recent years, with increased research, we have discovered that H2S can act as an endogenous regulatory transmitter. In mammals, H2S-catalyzing enzymes, such as cystathionine-β-synthase, cystathionine-γ-lyase, and 3-mercaptopyruvate sulfurtransferase, are differentially expressed in a variety of tissues and affect a variety of biological functions, such as transcriptional and posttranslational modification of genes, activation of signaling pathways in the cell, and metabolic processes in tissues, by producing H2S. Various preclinical studies have shown that H2S affects physiological and pathological processes in the body. However, a detailed systematic summary of these roles in health and disease is lacking. Therefore, this review provides a thorough overview of the physiological roles of H2S in different systems and the diseases associated with disorders of H2S metabolism, such as ischemia-reperfusion injury, hypertension, neurodegenerative diseases, inflammatory bowel disease, and cancer. Meanwhile, this paper also introduces H2S donors and novel release modes, as well as the latest preclinical experimental results, aiming to provide researchers with new ideas to discover new diagnostic targets and therapeutic options. Show less

no PDF DOI: 10.1002/mco2.661

review

The potential role of hydrogen sulfide in cancer cell apoptosis.

Wei Gao, Ya-Fang Liu, Yan-Xia Zhang +7 more · 2024 · Cell Death Discovery · Nature · added 2026-04-20

Wei Gao, Ya-Fang Liu, Yan-Xia Zhang, Yan Wang, Yu-Qing Jin, Hang Yuan, Xiao-Yi Liang, Xin-Ying Ji, Qi-Ying Jiang, Dong-Dong Wu Show less

For a long time, hydrogen sulfide (H2S) has been considered a toxic compound, but recent studies have found that H2S is the third gaseous signaling molecule which plays a vital role in physiological a Show more

For a long time, hydrogen sulfide (H2S) has been considered a toxic compound, but recent studies have found that H2S is the third gaseous signaling molecule which plays a vital role in physiological and pathological conditions. Currently, a large number of studies have shown that H2S mediates apoptosis through multiple signaling pathways to participate in cancer occurrence and development, for example, PI3K/Akt/mTOR and MAPK signaling pathways. Therefore, the regulation of the production and metabolism of H2S to mediate the apoptotic process of cancer cells may improve the effectiveness of cancer treatment. In this review, the role and mechanism of H2S in cancer cell apoptosis in mammals are summarized. Show less

📄 PDF DOI: 10.1038/s41420-024-01868-w

review

Development of Platinum Complexes for Tumor Chemoimmunotherapy

Suxing Jin, Yan Guo, Xiaoyong Wang · 2024 · Chemistry – A European Journal · Wiley · added 2026-04-20

AbstractPlatinum complexes are potential antitumor drugs in chemotherapy. Their impact on tumor treatment could be greatly strengthened by combining with immunotherapy. Increasing evidences indicate t Show more

AbstractPlatinum complexes are potential antitumor drugs in chemotherapy. Their impact on tumor treatment could be greatly strengthened by combining with immunotherapy. Increasing evidences indicate that the antitumor activity of platinum complexes is not limited to chemical killing effects, but also extends to immunomodulatory actions. This review introduced the general concept of chemoimmunotherapy and summarized the progress of platinum complexes as chemoimmunotherapeutic agents in recent years. Platinum complexes could be developed into inducers of immunogenic cell death, blockers of immune checkpoint, regulators of immune signaling pathway, and modulators of tumor immune microenvironment, etc. The synergy between chemotherapeutic and immunomodulatory effects reinforces the antitumor activity of platinum complexes, and helps them circumvent the drug resistance and systemic toxicity. The exploration of platinum complexes for chemoimmunotherapy may create new opportunities to revive the discovery of metal anticancer drugs. Show less

no PDF DOI: 10.1002/chem.202302948

Pt anticancer immunogenic review

Cancer immunometabolism: advent, challenges, and perspective

Yi Dang, Xiaowu Xu, O WARBURG +684 more · 2024 · Molecular Cancer · BioMed Central · added 2026-04-20

Yi Dang, Xiaowu Xu, O WARBURG, K Posener, E Negelein, WH Koppenol, PL Bounds, CV Dang, P Dey, AC Kimmelman, RA Depinho, Z Yang, C Yan, J Ma, SM Morrissey, F Zhang, C Ding, IS Harris, GM DeNicola, LK Boroughs, RJ DeBerardinis, I Martinez-Reyes, NS Chandel, Y Long, H Tao, A Karachi, M Nakaya, Y Xiao, X Zhou, SA Lim, J Wei, TM Nguyen, T Chen, ZG Xu, J Luo, M Reina-Campos, NE Scharping, AW Goldrath, D Nemazee, DG Ryan, LAJ O'Neill, C Campbell, PT McKenney, D Konstantinovsky, L Guerra, L Bonetti, D Brenner, J Jung, H Zeng, T Horng, CH Chang, J Qiu, D O'Sullivan, S Terry, AST Engelsen, S Buart, B Huang, BL Song, C Xu, J Jin, Q Zhao, Z Wei, AE Baek, YA Yu, S He, ML Gauci, E Lanoy, S Champiat, JA Shyer, RA Flavell, W Bailis, MN Artyomov, J van den Bossche, V Deretic, LA O'Neill, RJ Kishton, J Rathmell, F Vrieling, R Stienstra, C Xue, G Li, Q Zheng, Z Zaslona, R Haas, D Cucchi, J Smith, N Nagata, T Takeuchi, H Masuoka, MP Murphy, C Frezza, Z Zhang, X Li, F Yang, RI Klein Geltink, J Edwards-Hicks, P Apostolova, J He, X Shangguan, W Zhou, HAM Alsheikh, BJ Metge, CM Ha, J Afonso, LL Santos, A Longatto-Filho, EL Lieu, T Nguyen, S Rhyne, ZN Ling, YF Jiang, JN Ru, H Peng, Y Wang, W Luo, J Faber, M Berkhout, U Fiedler, Z Wang, Z Lu, S Lin, B Manfroi, S Fillatreau, A Matos, M Carvalho, M Bicho, R Geiger, JC Rieckmann, T Wolf, SM Steggerda, MK Bennett, J Chen, JJ Miret, P Kirschmeier, S Koyama, S Magi, S Piccirillo, S Amoroso, L Cui, J Guo, SL Cranfill, RD Leone, L Zhao, JM Englert, DN Edwards, VM Ngwa, AL Raybuck, M Platten, EAA Nollen, UF Rohrig, TL Montgomery, K Eckstrom, KH Lile, C Chen, G Hou, C Zeng, R Qin, C Zhao, CJ Wang, LI Greene, TC Bruno, JL Christenson, M Friedrich, R Sankowski, L Bunse, MJ Bender, AC McPherson, CM Phelps, W Fong, Q Li, F Ji, PJ Siska, J Jiao, C Matos, X Gu, A Bessede, F Peyraud, S le Moulec, J Wu, L Li, JNR Gnanaprakasam, B Kushwaha, L Liu, Z Gong, J Shi, C Ecker, L Guo, S Voicu, RJ King, PK Singh, K Mehla, W Yang, Y Bai, Y Xiong, F Pistollato, TY Forbes-Hernandez, RC Iglesias, X Ma, E Bi, Y Lu, N Koundouros, G Poulogiannis, H Xu, Y Chen, M Gu, L Berod, C Friedrich, A Nandan, Y Endo, HK Asou, N Matsugae, A Onodera, K Obata-Ninomiya, EL Pearce, MC Walsh, PJ Cejas, H Da BorgesSilva, LK Beura, H Wang, E Grajchen, M Loix, P Baeten, C Zhang, C Yue, A Herrmann, JA Yanez, SW Wang, IW Knemeyer, JB Lee, A Zgair, J Malec, Y Li, YC Li, XT Liu, S Chowdhury, A Kar, D Bhowmik, P Icard, L Simula, Z Wu, X Yi, X Chen, J Catapano, M Luty, T Wrobel, MR Morrow, B Batchuluun, T Umemoto, A Johansson, SAI Ahmad, J Liu, Y Peng, L Shi, LP Diebold, H Kong, EL Mills, B Kelly, A Logan, S Hubert, B Rissiek, K Klages, B Sunkel, M Wang, PS Liu, JP Bottcher, E Bonavita, P Chakravarty, CP Bromley, G Jonsson, MJ Watson, PDA Vignali, SJ Mullett, Q Feng, Z Liu, X Yu, RJ Johnston, LJ Su, J Pinckney, I Elia, JH Rowe, S Johnson, C Pan, B Li, MC Simon, F Hinrichsen, J Hamm, M Westermann, Z Ma, L Jiao, HL Zhang, DD Li, J Wang, Q Huang, X Hu, D Guo, Y Tong, X Jiang, CS Blaha, G Ramakrishnan, SM Jeon, S Xu, HR Herschman, BA Webb, F Forouhar, FE Szu, J Feng, J Li, L Wu, M Chimenti, MP Jacobson, C Corbet, O Feron, S Taylor, EP Spugnini, YG Assaraf, N Amara, MP Cooper, MA Voronkova, T Gauthier, C Yao, T Dowdy, A Coquerel, H Ando, K Eshima, T Ishida, JA Menendez, R Lupu, L Jiang, X Fang, M Zhang, L Yu, Y Sun, M O'Farrell, G Duke, R Crowley, P Sun, X Zhang, RJ Wang, T Zhao, S Liu, X Ding, M Gomaraschi, F Bonacina, GD Norata, SC Huang, B Everts, Y Ivanova, H Du, MC Yoder, CC Lee, GJ van der Windt, M Dominguez, B Brune, D Namgaladze, N Zaidi, JV Swinnen, K Smans, KE Wellen, G Hatzivassiliou, UM Sachdeva, M Tan, R Mosaoa, GT Graham, MA Lauterbach, JE Hanke, M Serefidou, SM Hochrein, H Wu, M Eckstein, M Tian, F Hao, X Jin, H Yang, D Ye, KL Guan, MJ Wu, J Merritt, BL McClellan, S Haase, FJ Nunez, M Itsumi, S Inoue, AJ Elia, G Notarangelo, JB Spinelli, EM Perez, AK Jha, A Sergushichev, J Dubrot, X Xiang, S Pusch, T Bunse, W Yin, YF Ping, F Li, G Kohanbash, DA Carrera, S Shrivastav, RT Schinzel, R Higuchi-Sanabria, O Shalem, W Hu, T Peng, Y Huang, H Ruschen, K Aravinth, C Bunce, K Fatima, N Masood, Z Ahmad Wani, M Fronza, GF Caetano, MN Leite, D Jiang, J Liang, PW Noble, SL Kolar, P Kyme, CW Tseng, AB Blair, J Davelaar, Y Liu, D Xu, P Hou, W Li, V Papayannopoulos, L Xiao, R Peeters, J Cuenca-Escalona, EA Zaal, C Huang, DR Bauman, AD Bitmansour, JG McDonald, S Jaillon, A Ponzetta, D di Mitri, S Cane, RM Barouni, M Fabbi, G Cui, MM Staron, SM Gray, SM Kaech, W Cui, W Su, NM Chapman, O Chaudhary, P Rodriguez-Morales, MR Boothby, H Chi, K Yang, S Shrestha, Z Nian, X Zheng, Y Dou, IM Werter, CM Huijts, SM Lougheed, DA Braun, Y Hou, Z Bakouny, A Trompette, ES Gollwitzer, C Pattaroni, E Lu, T Yi, S Hang, D Paik, L Yao, Y Kidani, H Elsaesser, MB Hock, SK Brookens, GT Bommer, OA Macdougald, JZ Adamska, C Li, J Cheng, J Yan, M Soncini, G Corna, M Moresco, X Wang, LM Kelly, VA Blaho, T Hla, E Jozefczuk, TJ Guzik, M Siedlinski, JP Pereira, Y Xu, JG Cyster, ML Allende, G Tuymetova, BG Lee, C He, S Wang, C Zhou, PJ Murray, JE Allen, SK Biswas, J Zhang, J Baardman, SGS Verberk, S van der Velden, E Gomez Perdiguero, K Klapproth, C Schulz, D Hashimoto, A Chow, C Noizat, Y Okabe, R Medzhitov, L Ji, MO Li, H Kane, L Lynch, A Nakamura, R Ebina-Shibuya, A Itoh-Nakadai, C McCarthy, E Lee, JP Bridges, F Ishikawa, H Niiro, T Iino, F le Naour, L Hohenkirk, A Grolleau, R Wang, CP Dillon, LZ Shi, W Kc, AT Satpathy, AS Rapaport, CM Krawczyk, T Holowka, J Sun, JR Schafer, TC Salzillo, N Chakravarti, A Marcais, J Cherfils-Vicini, C Viant, MP Keppel, N Saucier, AY Mah, M Felices, AJ Lenvik, R McElmurry, H Jensen, M Potempa, D Gotthardt, X Jia, L Chiossone, J Chaix, N Fuseri, RM Loftus, N Assmann, N Kedia-Mehta, X Michelet, L Dyck, A Hogan, A Cerwenka, LL Lanier, TE O'Sullivan, JC Sun, S Paust, UH von Andrian, LR Johnson, HH Kang, JN Beilke, LL Liu, J Landskron, EH Ask, MD Filippi, A Hidalgo, ER Chilvers, C Summers, PX Liew, P Kubes, L Raccosta, R Fontana, D Maggioni, V Monceaux, C Chiche-Lapierre, C Chaput, KI Mecklenburgh, SR Walmsley, AS Cowburn, NA Maianski, J Geissler, SM Srinivasula, M Veiga-Da-cunha, N Chevalier, X Stephenne, HS Jun, DA Weinstein, YM Lee, YY Cheung, T Condamine, GA Dominguez, JI Youn, N Gehrke, C Mertens, T Zillinger, C Lood, LP Blanco, MM Purmalek, L Wang, J Qian, H Braumuller, T Wieder, E Brenner, L Galluzzi, I Vitale, S Warren, G Kroemer, C Galassi, L Zitvogel, Y Zhou, IN Bastian, MD Long, J Galaine, C Turco, C Vauchy, O Kepp, L D'Amico, U Menzel, M Prummer, F Zhou, B Feng, H Yu, DV Krysko, AD Garg, A Kaczmarek, AM Dudek, L Apetoh, F Ghiringhelli, A Tesniere, M Michaud, I Martins, AQ Sukkurwala, M Obeid, N Casares, MO Pequignot, I Mellman, DS Chen, T Powles, GT Motz, G Coukos, M You, Z Xie, N Zhang, CH Tsai, YM Chuang, JR Giles, AM Globig, BJ Kirsch, R Asaka, M Markovic, S Ben-Shabat, S Keinan, AS Elz, NL Trevaskis, CJH Porter, M Haidinger, M Poglitsch, R Geyeregger, AM Woltman, SW van der Kooij, PJ Coffer, RP Donnelly, SE Keating, V Zaiatz-Bittencourt, MH Sofi, J Heinrichs, M Dany, J Cedervall, Y Zhang, H Huang, S Pilon-Thomas, KN Kodumudi, AE El-Kenawi, D Buckley, TS Heuer Show less

For decades, great strides have been made in the field of immunometabolism. A plethora of evidence ranging from basic mechanisms to clinical transformation has gradually embarked on immunometabolism t Show more

For decades, great strides have been made in the field of immunometabolism. A plethora of evidence ranging from basic mechanisms to clinical transformation has gradually embarked on immunometabolism to the center stage of innate and adaptive immunomodulation. Given this, we focus on changes in immunometabolism, a converging series of biochemical events that alters immune cell function, propose the immune roles played by diversified metabolic derivatives and enzymes, emphasize the key metabolism-related checkpoints in distinct immune cell types, and discuss the ongoing and upcoming realities of clinical treatment. It is expected that future research will reduce the current limitations of immunotherapy and provide a positive hand in immune responses to exert a broader therapeutic role. Show less

📄 PDF DOI: 10.1186/s12943-024-01981-5

review

The role of mitochondria in tumor metastasis and advances in mitochondria-targeted cancer therapy

Shengdong Chen, Shengdong Wang, S Gerstberger +1262 more · 2024 · Cancer Metastasis Reviews · Springer · added 2026-04-20

Shengdong Chen, Shengdong Wang, S Gerstberger, Q Jiang, K Ganesh, D Lyden, CM Ghajar, AL Correia, JA Aguirre-Ghiso, S Cai, M Rescigno, J Massagué, AC Obenauf, J Fares, MY Fares, HH Khachfe, HA Salhab, Y Fares, TS Gerashchenko, AA Schegoleva, AA Khozyainova, EL Choinzonov, EV Denisov, RL Siegel, KD Miller, HE Fuchs, A Jemal, P Bragado, MS Sosa, X Chen, JR Cubillos-Ruiz, B Banushi, SR Joseph, B Lum, JJ Lee, F Simpson, AR Elhamamsy, BJ Metge, HA Alsheikh, LA Shevde, RS Samant, J Yang, A Griffin, Z Qiang, J Ren, M Bedi, M Ray, A Ghosh, DC Wallace, HK Kim, YH Noh, B Nilius, KS Ko, BD Rhee, N Kim, F Randow, RJ Youle, DP Boulton, MC Caino, LX Zampieri, C Silva-Almeida, JD Rondeau, P Sonveaux, R Gundamaraju, W Lu, R Manikam, Y Liu, T Wang, W Ma, Z Jia, Q Wang, M Zhang, R Bai, J Cui, L Sainero-Alcolado, J Liaño-Pons, MV Ruiz-Pérez, M Arsenian-Henriksson, F Bray, M Laversanne, H Sung, J Ferlay, I Soerjomataram, AN Giaquinto, PS Steeg, C Dumontet, JM Reichert, PD Senter, JM Lambert, A Beck, AD Waldman, JM Fritz, MJ Lenardo, J Lu, M Tan, Q Cai, N Weidner, JP Semple, WR Welch, J Folkman, D Fukumura, RK Jain, H Maeda, NC Denko, NH Kim, YH Cha, J Lee, SH Lee, JH Yang, JS Yun, WC Wang, XF Zhang, J Peng, XF Li, AL Wang, YQ Bie, D Ribatti, XL Lou, J Sun, SQ Gong, XF Yu, R Gong, H Deng, RD Schreiber, LJ Old, MJ Smyth, VS LeBleu, JT O’Connell, HK Gonzalez, H Wikman, K Pantel, MC Haigis, X Mao, J Xu, W Wang, C Liang, J Hua, J Liu, R Vessella, XL Gao, YL Tang, XH Liang, D Páez, MJ Labonte, P Bohanes, W Zhang, L Benhanim, Y Ning, K Naidoo, SE Pinder, M Esposito, S Ganesan, Y Kang, K Fizazi, M Carducci, M Smith, R Damião, J Brown, L Karsh, AT Stopeck, A Lipton, JJ Body, GG Steger, K Tonkin, RH de Boer, T Shibue, MW Brooks, RA Weinberg, N Oku, Y Tokudome, C Koike, N Nishikawa, H Mori, I Saiki, L Tentori, AS Dorio, A Muzi, PM Lacal, F Ruffini, P Navarra, S Yamada, XY Bu, V Khankaldyyan, I Gonzales-Gomez, JG McComb, WE Laug, C Manegold, J Vansteenkiste, F Cardenal, W Schuette, PJ Woll, E Ulsperger, A Alva, S Slovin, S Daignault, R Dipaola, K Pienta, KB Kim, V Prieto, RW Joseph, AH Diwan, GE Gallick, NE Papadopoulos, H Vakifahmetoglu-Norberg, AT Ouchida, E Norberg, PJ Burke, PH Willems, R Rossignol, CE Dieteren, MP Murphy, WJ Koopman, EL Mills, B Kelly, L O’Neill, N Borcherding, JR Brestoff, DE Green, N Pfanner, B Warscheid, N Wiedemann, TG Frey, CA Mannella, NS Chandel, CT Walsh, BP Tu, Y Tang, LA Sazanov, IN Watt, MG Montgomery, MJ Runswick, AG Leslie, JE Walker, O WARBURG, R Morais, K Zinkewich-Péotti, M Parent, H Wang, F Babai, M Zollinger, XL Zu, M Guppy, S Bolisetty, EA Jaimes, MD Brand, MR Duchen, SJ Annesley, PR Fisher, Y Wang, H Qi, C Duan, X Liu, T Xia, CL Kuo, BA Ponneri, YC Lin, HW Lien, YK Lo, HY Chou, A Rossi, P Pizzo, R Filadi, R Rizzuto, D De Stefani, A Raffaello, C Mammucari, A Tosatto, R Sommaggio, C Kummerow, RB Bentham, TS Blacker, T Berecz, PE Czabotar, AJ Garcia-Saez, T Vervliet, JB Parys, G Bultynck, C Tse, AR Shoemaker, J Adickes, MG Anderson, J Chen, S Jin, T Oltersdorf, SW Elmore, RC Armstrong, DJ Augeri, BA Belli, SE Weinberg, LA Sena, AP West, W Khoury-Hanold, M Staron, MC Tal, CM Pineda, SM Lang, LV Sinclair, J Rolf, E Emslie, YB Shi, PM Taylor, DA Cantrell, EL Carr, A Kelman, GS Wu, R Gopaul, E Senkevitch, A Aghvanyan, MM Kaminski, SW Sauer, CD Klemke, D Süss, JG Okun, PH Krammer, MM Kamiński, M Kamiński, S Opp, T Ruppert, P Grigaravičius, RJ DeBerardinis, A Mancuso, E Daikhin, I Nissim, M Yudkoff, S Wehrli, WX Zong, JD Rabinowitz, E White, J Fan, JJ Kamphorst, R Mathew, MK Chung, T Shlomi, JW Locasale, AA Khutornenko, VV Roudko, BV Chernyak, AB Vartapetian, PM Chumakov, AG Evstafieva, S Lu, LL Wu, L Yang, J Wang, C Mao, Y Zhang, G Lei, Y Yan, H Lee, L Alberghina, C De Duve, R Wattiaux, S Geisler, KM Holmström, D Skujat, FC Fiesel, OC Rothfuss, PJ Kahle, K Polyak, Y Li, H Zhu, C Lengauer, JK Willson, SD Markowitz, BE Baysal, RE Ferrell, JE Willett-Brozick, EC Lawrence, D Myssiorek, A Bosch, JL Spees, SD Olson, MJ Whitney, DJ Prockop, T Saha, C Dash, R Jayabalan, S Khiste, A Kulkarni, K Kurmi, S Delaunay, G Pascual, B Feng, K Klann, M Behm, A Hotz-Wagenblatt, Z Gan, T Fu, DP Kelly, RB Vega, H Zhou, Z Dai, J Li, X Chang, T Farmer, N Naslavsky, S Caplan, YY Jeong, HH Liu, YT Cao, LL Zhang, F Huang, C Yi, A Picca, J Faitg, J Auwerx, L Ferrucci, D D’Amico, KF Macleod, LP Poole, C Li, X Cheng, H Yuan, S Zhu, Y Zheng, C Huang, L Lu, K Yu, J Zhao, M Chen, C Zhang, Y Zhao, X Yue, H Wu, S Huang, AH Chourasia, K Tracy, C Frankenberger, ML Boland, MN Sharifi, LE Drake, J Okami, DM Simeone, CD Logsdon, C Shi, Y Cai, N Hu, S Ma, E Agarwal, I Bertolini, JH Seo, JC Ghosh, L Wu, D Zhang, L Zhou, Y Pei, Y Zhuang, W Cui, J Liang, Y Yang, L Bai, F Li, E Li, X Sun, H Cao, L Zhan, C Yin, G Wang, P Liang, S Zhao, L Cheng, Y Shi, Q Yun, H Yang, L Li, DB Rivadeneira, DI Gabrilovich, ET Kim, S Herkenne, O Ek, M Zamberlan, A Pellattiero, M Chergova, I Chivite, H Li, H Chang, L Du, J Hai, X Geng, H Tang, S Peng, Y Dong, X Yang, P Yang, M Lin, R Wu, X Wang, B Yang, AJ Levine, C Yan, TS Li, M Murai, M Toyota, H Suzuki, A Satoh, Y Sasaki, K Akino, M Erkan, J Kleeff, I Esposito, T Giese, K Ketterer, MW Büchler, TJ Humpton, B Alagesan, GM DeNicola, D Lu, GN Yordanov, CS Leonhardt, TE O’Sullivan, LR Johnson, HH Kang, JC Sun, Z Chen, L Liu, Q Cheng, M Giacomello, A Pyakurel, C Glytsou, L Scorrano, W Chen, H Zhao, AP Trotta, JE Chipuk, J Zhang, M Yu, Y Xie, Y Huang, DW Wolff, YC Chae, AV Kossenkov, YG Lee, HY Tang, D Karimi, N Pedram, F Kakaei, M Asadi, E Poursaei, TA Kermani, X Zhang, T Song, B Wu, Z Zhang, TE Li, D Xu, Y Zhu, BY Hu, B Cunniff, AJ McKenzie, NH Heintz, AK Howe, A Aguinaldo, E Wait, KG Bryant, JN Moloney, TG Cotter, JM Cameron, M Gabrielsen, YH Chim, J Munro, EJ McGhee, D Sumpton, H Alshaabi, N Shannon, R Gravelle, S Milczarek, T Messier, DC Altieri, D Liu, Y Gao, J Yin, Y Feng, PK Melwani, BN Pandey, N Rabas, S Palmer, L Mitchell, S Ismail, A Gohlke, JS Riley, G Pinto, C Brou, C Zurzolo, Z Nahacka, R Zobalova, M Dubisova, J Rohlena, J Neuzil, J Novak, SP Desai, SN Bhatia, M Toner, D Irimia, Q Li, L Yao, Y Wei, S Geng, C He, H Jiang, J Pasquier, BS Guerrouahen, TH Al, P Ghiabi, M Maleki, N Abu-Kaoud, T Ahmad, S Mukherjee, B Pattnaik, M Kumar, S Singh, L Ippolito, A Morandi, ML Taddei, M Parri, G Comito, A Iscaro, JC Chang, HS Chang, YC Wu, WL Cheng, TT Lin, HJ Chang, CU Kidwell, JR Casalini, S Pradeep, SD Scherer, D Greiner, D Bayik, SJ Hanna, K McCoy-Simandle, E Leung, A Genna, J Condeelis, D Cox, F Xu, E Yinwang, Y Xue, EI Buzas, K Takenaga, N Koshikawa, H Nagase, H Mou, F Guan, X Wu, J Zhou, Y Lin, Y He, C Fan, E Abad, A Lyakhovich, C Salaud, A Alvarez-Arenas, F Geraldo, J Belmonte-Beitia, GF Calvo, C Gratas, T Delvaeye, P Vandenabeele, L Leybaert, DV Krysko, J Ariazi, A Benowitz, V De Biasi, ML Den Boer, S Cherqui, H Cui, R Schulz, PM Görge, A Görbe, P Ferdinandy, PD Lampe, Y Yao, XL Fan, D Jiang, X Li, ZB Xu, D Ren, P Zheng, S Zou, Y Gong, J Duan, I Saenz-de-Santa-Maria, P Chastagner, E Perthame, C Delmas, C Toulas, DR Welch, C Foster, I Rigoutsos, P Huang, Z Wang, W Xu, H Simonnet, N Alazard, K Pfeiffer, C Gallou, C Béroud, J Demont, Y Wan, Q Zou, LM Tseng, PH Yin, CW Chi, CY Hsu, CW Wu, LM Lee, WY Hung, AF Li, SH Li, CC Hsu, HC Lee, YH Wei, Y Yuan, YS Ju, Y Kim, CJ Yoon, H Tu, J Gu, QH Meng, J Kim, JW Davis, RL Correia, SM Oba-Shinjo, M Uno, N Huang, SK Marie, WW Jiang, B Masayesva, M Zahurak, AL Carvalho, E Rosenbaum, E Mambo, MM Kim, JD Clinger, BG Masayesva, PK Ha, ML Zahurak, WH Westra, CS Lin, SC Chang, LS Wang, TY Chou, WH Hsu, DH Lee, JH Lee, DK Kim, DY Keum, JG Dai, ZY Zhang, QX Liu, JX Min, E Reznik, ML Miller, Y Şenbabaoğlu, N Riaz, J Sarungbam, SK Tickoo, L Moro, AA Arbini, E Marra, M Greco, D Kazdal, A Harms, V Endris, R Penzel, M Kriegsmann, F Eichhorn, S Chaudhary, S Ganguly, A Singh, JK Palanichamy, A Chopra, R Bakhshi, J Boultwood, C Fidler, KI Mills, PM Frodsham, R Kusec, A Gaiger, A Cormio, F Guerra, G Cormio, V Pesce, F Fracasso, V Loizzi, KS Vikramdeo, S Anand, MA Khan, M Khushman, MJ Heslin, G Pietka, W Kukwa, E Bartnik, A Scińska, AM Czarnecka, Z Tian, Q Yang, B Shi, P Hou, G Amuthan, G Biswas, HK Ananadatheerthavarada, C Vijayasarathy, HM Shephard, NG Avadhani, Y Xu, PK Kopinski, LN Singh, S Zhang, MT Lott, DJ Tan, RK Bai, LJ Wong, A Chatterjee, D Sidransky, JB Stewart, B Alaei-Mahabadi, R Sabarinathan, T Samuelsson, J Gorodkin, CM Gustafsson, KL Hertweck, S Dasgupta, MY Kim, H Kim, JA Sung, J Koh, S Cho, DH Chung, K Kaneva, D Merkurjev, D Ostrow, A Ryutov, P Triska, K Stachelek, K Tsuji, Y Kida, S Yamamoto, Y Shinozaki, T Watanabe, H Takeuchi, A Fujimoto, DS Hoon, KE de Visser, JA Joyce, N Ron-Harel, D Santos, JM Ghergurovich, PT Sage, A Reddy, SB Lovitch, MN Serasinghe, SY Wieder, TT Renault, R Elkholi, JJ Asciolla, JL Yao, T Yu, BS Jhun, Y Yoon, C Schwindling, A Quintana, E Krause, M Hoth, L Simula, F Nazio, S Campello, H Kong, M Song, B Zhang, L Zhang, Z Li, S Lin, T Zheng, B Hao, K Sinha, J Das, PB Pal, PC Sil, A Peña-Blanco, AJ García-Sáez, GR Bantug, C Hess, CH Chang, JD Curtis, LJ Maggi, B Faubert, AV Villarino, D O’Sullivan, M Philip, A Schietinger, N Dumauthioz, B Tschumi, M Wenes, B Marti, F Franco, NE Scharping, AV Menk, RS Moreci, RD Whetstone, RE Dadey, SC Watkins, MD Buck, GR Klein, DE Sanin, YR Yu, H Imrichova, T Chao, Z Xiao, M Gao, SA Vardhana, MA Hwee, M Berisa, DK Wells, KE Yost, B King, J Ogando, ME Sáez, J Santos, C Nuevo-Tapioles, M Gut, A Esteve-Codina, DS Thommen, VH Koelzer, P Herzig, A Roller, M Trefny, S Dimeloe, JC Beltra, S Manne, MS Abdel-Hakeem, M Kurachi, JR Giles, P Vignali, BR Ford, NL Rittenhouse, AC Scott, F Dündar, P Zumbo, SS Chandran, CA Klebanoff, M Shakiba, I Vitale, G Manic, LM Coussens, G Kroemer, L Galluzzi, X Geeraerts, J Fernández-Garcia, FJ Hartmann, KE de Goede, L Martens, Y Elkrim, R Xu, H Gu, E Zhang, J Qu, W Cao, MN Hasan, O Capuk, SM Patel, D Sun, Y Han, SY Rodriguez, S Siddiqui, C Treese, G Di Conza, CH Tsai, H Gallart-Ayala, L Zaffalon, PS Liu, T Teav, S Christen, RE Menjivar, ZC Nwosu, W Du, KL Donahue, HS Hong, C Espinoza, Z He, M Huang, T Liu, H Xu, R Kalluri, C Sun, Z Qin, LM Becker, AP Vo, MP Cain, D Tampe, L Bizarro, T Fiaschi, A Marini, E Giannoni, P Gandellini, A De Donatis, SJ Parker, CR Amendola, K Hollinshead, Q Yu, K Yamamoto, J Encarnación-Rosado, CM Sousa, DE Biancur, CJ Halbrook, MH Sherman, A Achreja, TL Yeung, LS Mangala, C Han, TD Bhagat, D Von Ahrens, M Dawlaty, Y Zou, J Baddour, M Bacci, A Angelin, L Gil-de-Gómez, S Dahiya, J Jiao, L Guo, MH Levine, MJ Watson, SJ Mullett, AE Overacre-Delgoffe, RM Peralta, S Grebinoski, J Qiu, T Noguchi, Y Luo, J Ma, L Qi, T Knifley, DW Piecoro, P Rychahou, S Li, W Dai, W Mo, J Feng, S Andrzejewski, SP Gravel, M Pollak, J St-Pierre, K Rohlenova, K Sachaphibulkij, J Stursa, A Bezawork-Geleta, J Blecha, B Endaya, LF Dong, VJ Jameson, D Tilly, L Prochazka, K Valis, L Song, C Liu, Q Zhang, X Liang, C Ramachandran, PK Nair, A Alamo, CB Cochrane, E Escalon, SJ Melnick, MK Shin, YD Jeon, SH Hong, SH Kang, JY Kee, JS Jin, L Dang, K Yen, EC Attar, D Rohle, J Popovici-Muller, N Palaskas, S Turcan, C Grommes, C Campos, A Alistar, BB Morris, R Desnoyer, HD Klepin, K Hosseinzadeh, C Clark, TS Pardee, K Lee, J Luddy, C Maturo, R Rodriguez, S Isom, C Xie, J Jin, X Bao, WH Zhan, TY Han, M Gan, O Tusskorn, T Khunluck, A Prawan, L Senggunprai, V Kukongviriyapan, ND Nguyen, D Lin, TN Fujimoto, JM Molkentine, T Peng, H Fu, Y Guo, P Hu, J Shi, P Yuan, W Yu, J Lin, A Xu, X Xu, LC Nava, S Tiberti, PA Corsetto, F Conte, P Tyagi, M Machwirth, A Jaccard, T Wyss, N Maldonado-Pérez, ST Teoh, A Lepez, H Yan, DW Parsons, G Jin, R McLendon, BA Rasheed, W Yuan, C Bardella, PJ Pollard, I Tomlinson, M Bolzoni, M Chiu, F Accardi, R Vescovini, I Airoldi, P Storti, J Márquez, FJ Alonso, JM Matés, JA Segura, M Martín-Rufián, JA Campos-Sandoval, MI Gross, SD Demo, JB Dennison, L Chen, T Chernov-Rogan, B Goyal, A Le, AN Lane, M Hamaker, S Bose, A Gouw, J Barbi, Y Xiang, ZE Stine, J Xia, Y Lu, RS O’Connor, BJ Altman, A Cassidy-Stone, E Ingerman, C Song, C Yoo, T Kuwana, A Ruiz, E Alberdi, C Matute, J Chwa, ME Oh, T Abeywardana, Q Xie, Q Wu, CM Horbinski, WA Flavahan, K Yang, W Zhou, MH You, MJ Jeon, SR Kim, WK Lee, SY Cheng, G Jang, SA Rosenberg, P Sharma, S Hu-Lieskovan, JA Wargo, A Ribas, D Wang, H Yu, F Zhou, H Zhang, AD Garg, A Kaczmarek, O Krysko, P Agostinis, EJ Lee, GH Nam, NK Lee, M Kih, E Koh, YK Kim, S Pierini, C Fang, S Rafail, JG Facciponte, J Huang, F De Sanctis, S Pustylnikov, F Costabile, S Beghi, A Facciabene, C Wei, O Yeku, RJ Brentjens, JC Yang, CH June, SR Riddell, TN Schumacher, ML Davila, I Riviere, J Park, LG Cowell, X Si, M Shao, X Teng, G Xiao, H Huang, M Sukumar, GU Mehta, SJ Patel, R Roychoudhuri, JG Crompton, NS Joshi, A Chandele, HK Lee, DR Urso, J Hagman, L Gattinoni, NP Restifo, K Klein, K He, AI Younes, HB Barsoumian, D Chen, T Ozgen, B Kalyanaraman, G Cheng, J Zielonka, O Ouari, M Lopez, D McAllister, K Boyle, LL Bu, GT Yu, WW Deng, L Mao, JF Liu, SR Ma Show less

Mitochondria are central actors in diverse physiological phenomena ranging from energy metabolism to stress signaling and immune modulation. Accumulating scientific evidence points to the critical inv Show more

Mitochondria are central actors in diverse physiological phenomena ranging from energy metabolism to stress signaling and immune modulation. Accumulating scientific evidence points to the critical involvement of specific mitochondrial-associated events, including mitochondrial quality control, intercellular mitochondrial transfer, and mitochondrial genetics, in potentiating the metastatic cascade of neoplastic cells. Furthermore, numerous recent studies have consistently emphasized the highly significant role mitochondria play in coordinating the regulation of tumor-infiltrating immune cells and immunotherapeutic interventions. This review provides a comprehensive and rigorous scholarly investigation of this subject matter, exploring the intricate mechanisms by which mitochondria contribute to tumor metastasis and examining the progress of mitochondria-targeted cancer therapies. Show less

📄 PDF DOI: 10.1007/s10555-024-10211-9

mitochondria review

Ovarian cancer cells regulate their mitochondrial content and high mitochondrial content is associated with a poor prognosis

S Weigelt, RA Weinberg, S Mei +175 more · 2024 · BMC Cancer · BioMed Central · added 2026-04-20

S Weigelt, RA Weinberg, S Mei, X Chen, K Wang, Y Chen, N Colombo, C Sessa, A du Bois, J Ledermann, WG McCluggage, I McNeish, H Abdel Mageed, K Van Der Speeten, P Sugarbaker, N Ahmed, R Escalona, D Leung, E Chan, G Kannourakis, W Chowanadisai, SM Messerli, DH Miller, JE Medina, JW Hamilton, MA Messerli, AM Haslehurst, M Koti, M Dharsee, P Nuin, K Evans, J Geraci, P Ghosh, C Vidal, S Dey, L Zhang, LF Dong, J Neuzil, HD Osiewacz, M Huang, CR Myers, Y Wang, M You, SE Weinberg, NS Chandel, O WARBURG, DC Wallace, RM Pascale, DF Calvisi, MM Simile, CF Feo, F Feo, G Kroemer, L Galluzzi, C Brenner, N Joza, E Tasdemir, MC Maiuri, M Hengartner, JM Abrams, Y Ding, V Labitzky, K Legler, M Qi, U Schumacher, B Schmalfeldt, L Oliveira-Ferrer, J Dietl, C Bartmann, C Stürken, J Ghulam, C Stuerken, D Wicklein, R Pries, B Wollenberg, M Metzen, M Bruns, W Deppert, N Lüders, E Adam, DJ Flavell, D Boehm, SA Brooks, AJ Leathem, E Hjerpe, S Egyhazi, J Carlson, MF Stolt, K Schedvins, H Johansson, J Guo, X Li, W Zhang, S Zhu, L Chen, S Fulda, L Bockelmann, C Starzonek, AC Niehoff, U Karst, J Thomale, H Schluter, LC Bockelmann, WX Zong, JD Rabinowitz, E White, R Moreno-Sánchez, S Rodríguez-Enríquez, A Marín-Hernández, E Saavedra, Y Kubo, K Tanaka, Y Masuike, T Takahashi, K Yamashita, T Makino, CT Hensley, B Faubert, Q Yuan, N Lev-Cohain, E Jin, J Kim, LA Moukarzel, L Ferrando, H Dopeso, A Stylianou, T Basili, F Pareja, RJ DeBerardinis, JJ Lum, G Hatzivassiliou, CB Thompson, S Dar, J Chhina, I Mert, D Chitale, T Buekers, H Kaur, VW Liu, WC Xue, AN Cheung, HY Ngan, HY Lim, QS Ho, J Low, M Choolani, KP Wong, F Vazquez, JH Lim, H Chim, K Bhalla, G Girnun, K Pierce, EM Kuntz, P Baquero, AM Michie, K Dunn, S Tardito, TL Holyoake, DR Hodge, EM Hurt, WL Farrar, DS Matassa, MR Amoroso, H Lu, R Avolio, D Arzeni, C Procaccini, M Peiris-Pagès, UE Martinez-Outschoorn, RG Pestell, F Sotgia, MP Lisanti, AS Anderson, PC Roberts, MI Frisard, MW Hulver, EM Schmelz Show less

Most cancer patients ultimately die from the consequences of distant metastases. As metastasis formation consumes energy mitochondria play an important role during this process as they are the most im Show more

Most cancer patients ultimately die from the consequences of distant metastases. As metastasis formation consumes energy mitochondria play an important role during this process as they are the most important cellular organelle to synthesise the energy rich substrate ATP, which provides the necessary energy to enable distant metastasis formation. However, mitochondria are also important for the execution of apoptosis, a process which limits metastasis formation. We therefore wanted to investigate the mitochondrial content in ovarian cancer cells and link its presence to the patient’s prognosis in order to analyse which of the two opposing functions of mitochondria dominates during the malignant progression of ovarian cancer. Monoclonal antibodies directed against different mitochondrial specific proteins, namely heat shock proteins 60 (HSP60), fumarase and succinic dehydrogenase, were used in immunohistochemistry in preliminary experiments to identify the antibody most suited to detect mitochondria in ovarian cancer cells in clinical tissue samples. The clearest staining pattern, which even delineated individual mitochondria, was seen with the anti-HSP60 antibody, which was used for the subsequent clinical study staining primary ovarian cancers ( n = 155), borderline tumours ( n = 24) and recurrent ovarian cancers ( n = 26). The staining results were semi-quantitatively scored into three groups according to their mitochondrial content: low ( n = 26), intermediate ( n = 50) and high ( n = 84). Survival analysis showed that high mitochondrial content correlated with a statistically significant overall reduced survival rate In addition to the clinical tissue samples, mitochondrial content was analysed in ovarian cancer cells grown in vitro (cell lines: OVCAR8, SKOV3, OVCAR3 and COV644) and in vivo in severe combined immunodeficiency (SCID) mice. In in vivo grown SKOV3 and OVCAR8 cells, the number of mitochondria positive cells was markedly down-regulated compared to the in vitro grown cells indicating that mitochondrial number is subject to regulatory processes. As high mitochondrial content is associated with a poor prognosis, the provision of high energy substrates by the mitochondria seems to be more important for metastasis formation than the inhibition of apoptotic cell death, which is also mediated by mitochondria. In vivo and in vitro grown human ovarian cancer cells showed that the mitochondrial content is highly adaptable to the growth condition of the cancer cells. Show less

📄 PDF DOI: 10.1186/s12885-023-11667-8

mitochondria

DPEP Inhibits Cancer Cell Glucose Uptake, Glycolysis and Survival by Upregulating Tumor Suppressor TXNIP

L.A. Zhou, Q. Zhou, M.D. Siegelin +351 more · 2024 · Cells · MDPI · added 2026-04-20

L.A. Zhou, Q. Zhou, M.D. Siegelin, J.M. Angelastro, P. Paerhati, J. Liu, Z. Jin, T. Jakos, S. Zhu, L. Qian, J. Zhu, Y. Yuan, P.D. Canoll, J. Kuo, M. Weicker, A. Costa, J.N. Bruce, L.A. Greene, T.K. Sears, M. Zhang, X. Wang, N. Yang, X. Zhu, Z. Lu, Y. Cai, B. Li, Y. Zhu, X. Li, Y. Wei, K.H. Klempnauer, X. Sun, P. Jefferson, S. Wang, J. Wu, W. Zhao, M. Li, S. Li, L. Hartl, J. Duitman, M.F. Bijlsma, C.A. Spek, C.C. Cates, A.D. Arias, L.S. Nakayama Wong, M.W. Lame, M. Sidorov, G. Cayanan, D.J. Rowland, J. Fung, G. Karpel-Massler, B.A. Horst, C. Shu, L. Chau, T. Tsujiuchi, P. Canoll, N. Pasquier, T.T.T. Nguyen, D. Banerjee, S. Boboila, S. Okochi, A.V. Kadenhe-Chiweshe, G. Lopez, A. Califano, E.P. Connolly, D.J. Yamashiro, S.E. Monaco, M. Szabolcs, D. Merino, P. Vaupel, G. Multhoff, A. Fukushi, H.D. Kim, Y.C. Chang, C.H. Kim, M. Jaworska, J. Szczudlo, A. Pietrzyk, J. Shah, S.E. Trojan, B. Ostrowska, K.A. Kocemba-Pilarczyk, T. Ackermann, G. Hartleben, C. Muller, G. Mastrobuoni, M. Groth, B.A. Sterken, M.A. Zaini, S.A. Youssef, H.R. Zuidhof, S.R. Krauss, Z. Wang, J. Pang, L. Wang, Q. Dong, D. Jin, Z. Chai, Y. Yang, Z. Gu, X. Cai, W. Ye, L. Kong, X. Qiu, L. Ying, T.C. Chan, Y.L. Shiue, C.F. Li, K. Balamurugan, J.M. Wang, H.H. Tsai, S. Sharan, M. Anver, R. Leighty, E. Sterneck, Y. Zhang, L. Li, F. Chu, H. Wu, X. Xiao, J. Ye, K. Li, A. Subramanian, P. Tamayo, V.K. Mootha, S. Mukherjee, B.L. Ebert, M.A. Gillette, A. Paulovich, S.L. Pomeroy, T.R. Golub, E.S. Lander, C.M. Lindgren, K.F. Eriksson, S. Sihag, J. Lehar, P. Puigserver, E. Carlsson, M. Ridderstrale, E. Laurila, M. Maslowska, H.W. Wang, K. Cianflone, S. Mizuno, R. Seishima, J. Yamasaki, K. Hattori, M. Ogiri, S. Matsui, K. Shigeta, K. Okabayashi, O. Nagano, P. Bajwa, K. Kordylewicz, A. Bilecz, R.R. Lastra, K. Wroblewski, Y. Rinkevich, E. Lengyel, H.A. Kenny, S. Xiao, W. Nai-Dong, Y. Jin-Xiang, T. Long, L. Xiu-Rong, G. Hong, Y. Jie-Cheng, Z. Fei, C. Zhou, L.H. Lyu, H.K. Miao, T. Bahr, Q.Y. Zhang, T. Liang, H.B. Zhou, G.R. Chen, Y. Bai, P.C. Hart, M. Mao, A.L. de Abreu, K. Ansenberger-Fricano, D.N. Ekoue, D. Ganini, A. Kajdacsy-Balla, A.M. Diamond, R.D. Minshall, M.E. Consolaro, M. Shimizu, N. Tanaka, S. Dagdeviren, R.T. Lee, N. Wu, N. Qayyum, M. Haseeb, M.S. Kim, S. Choi, E. Yoshihara, N.M. Alhawiti, S. Al Mahri, M.A. Aziz, S.S. Malik, S. Mohammad, S.Y. Hong, F.X. Yu, Y. Luo, T. Hagen, L. Shen, J.M. O’Shea, M.R. Kaadige, S. Cunha, B.R. Wilde, A.L. Cohen, A.L. Welm, D.E. Ayer, L. Feng, R. Ding, X. Qu, Y. Li, T. Shen, R. Li, J. Zhang, Y. Ru, X. Bu, Q. Yan, L. Gong, H. Xu, B. Liu, X. Fang, D. Yu, T. Wei, Y. Wang, Y. Liang, H. Wang, B. Chen, Q. Mao, W. Xia, T. Zhang, X. Song, Z. Zhang, L. Xu, G. Dong, Y. Chen, J. Ning, W. Cao, T. Du, J. Jiang, X. Feng, B. Zhang, B. Kalyanaraman, G. Cheng, M. Hardy, M. You, T.M. Ashton, W.G. McKenna, L.A. Kunz-Schughart, G.S. Higgins, L. Liu, P.K. Patnana, X. Xie, D. Frank, S.C. Nimmagadda, A. Rosemann, M. Liebmann, L. Klotz, B. Opalka, C. Khandanpour, N. Chen, Y.S. Zhou, L.C. Wang, J.B. Huang, Z. Wu, W. Wang, L. Wei, A.M. Stevens, E.S. Schafer, M. Terrell, R. Rashid, H. Paek, M.B. Bernhardt, A. Weisnicht, W.T. Smith, N.J. Keogh, A. Kapur, P. Mehta, A.D. Simmons, S.S. Ericksen, G. Mehta, S.P. Palecek, M. Felder, Z. Stenerson, A. Nayak, J.M.A. Dominguez, H. Dykstra, C. LaRose, C. Fisk, A. Waldhart, X. Meng, G. Zhao, A.N. Waldhart, A.S. Peck, E.A. Boguslawski, Z.B. Madaj, J. Wen, K. Veldkamp, M. Hollowell, B. Zheng, L.C. Cantley, A. Shaywitz, Y. Dagon, C. Tower, G. Bellinger, C.H. Shen, J. Asara, T.E. McGraw, S.J. Qualls-Histed, C.P. Nielsen, J.A. MacGurn, S. Kim, J. Ge, D. Kim, J.J. Lee, Y.J. Choi, W. Chen, J.W. Bowman, S.S. Foo, L.C. Chang, Q. Liang, M. Pliszka, L. Szablewski, P.B. Ancey, C. Contat, E. Meylan, M.H. Chan, Y.F. Yang, C.H. Li, M. Hsiao, P. Patwari, W.A. Chutkow, K. Cummings, V.L. Verstraeten, J. Lammerding, E.R. Schreiter, J. Deng, T. Pan, Z. Liu, C. McCarthy, J.M. Vicencio, L. Cao, G. Alfano, A.A. Suwaidan, M. Yin, R. Beatson, H. Gong, P. Zhang, X. Hu Show less

We have designed cell-penetrating peptides that target the leucine zipper transcription factors ATF5, CEBPB and CEBPD and that promote apoptotic death of a wide range of cancer cell types, but not nor Show more

We have designed cell-penetrating peptides that target the leucine zipper transcription factors ATF5, CEBPB and CEBPD and that promote apoptotic death of a wide range of cancer cell types, but not normal cells, in vitro and in vivo. Though such peptides have the potential for clinical application, their mechanisms of action are not fully understood. Here, we show that one such peptide, Dpep, compromises glucose uptake and glycolysis in a cell context-dependent manner (in about two-thirds of cancer lines assessed). These actions are dependent on induction of tumor suppressor TXNIP (thioredoxin-interacting protein) mRNA and protein. Knockdown studies show that TXNIP significantly contributes to apoptotic death in those cancer cells in which it is induced by Dpep. The metabolic actions of Dpep on glycolysis led us to explore combinations of Dpep with clinically approved drugs metformin and atovaquone that inhibit oxidative phosphorylation and that are in trials for cancer treatment. Dpep showed additive to synergistic activities in all lines tested. In summary, we find that Dpep induces TXNIP in a cell context-dependent manner that in turn suppresses glucose uptake and glycolysis and contributes to apoptotic death of a range of cancer cells. Show less

📄 PDF DOI: 10.3390/cells13121025

amino-acid

Colorectal cancer: Recent advances in management and treatment

F Fadlallah, K Elshiwy, Y Elkeraie +1388 more · 2024 · World Journal of Clinical Oncology · added 2026-04-20

F Fadlallah, K Elshiwy, Y Elkeraie, Z Merjaneh, G Khoudari, MT Sarmini, M Gad, M Al-Husseini, A Saad, RL Siegel, KD Miller, NS Wagle, A Jemal, A Kumar, V Gautam, A Sandhu, K Rawat, A Sharma, L Saha, M Bretthauer, M Løberg, P Wieszczy, M Kalager, L Emilsson, K Garborg, M Rupinski, E Dekker, M Spaander, M Bugajski, Ø Holme, AG Zauber, ND Pilonis, A Mroz, EJ Kuipers, J Shi, MA Hernán, HO Adami, J Regula, G Hoff, MF Kaminski, S Shinji, T Yamada, A Matsuda, H Sonoda, R Ohta, T Iwai, K Takeda, K Yonaga, Y Masuda, H Yoshida, M Zajkowska, B Mroczko, GJ Poston, J Figueras, F Giuliante, G Nuzzo, AF Sobrero, JF Gigot, B Nordlinger, R Adam, T Gruenberger, MA Choti, AJ Bilchik, Cutsem EJ Van, JM Chiang, MI D'Angelica, GJ Chang, AM Kaiser, S Mills, JF Rafferty, WD Buie, JR Monson, MR Weiser, J Rafferty, AE Blackmore, MT Wong, CL Tang, BL Green, HC Marshall, F Collinson, P Quirke, P Guillou, DG Jayne, JM Brown, J Mar, A Anton-Ladislao, O Ibarrondo, A Arrospide, S Lázaro, N Gonzalez, M Bare, D Callejo, M Redondo, JM Quintana, S Kitano, M Inomata, J Mizusawa, H Katayama, M Watanabe, S Yamamoto, M Ito, S Saito, S Fujii, F Konishi, Y Saida, H Hasegawa, T Akagi, K Sugihara, T Yamaguchi, T Masaki, Y Fukunaga, K Murata, M Okajima, Y Moriya, Y Shimada, P Gavriilidis, K Katsanos, K Toritani, J Watanabe, K Nakagawa, Y Suwa, H Suwa, A Ishibe, M Ota, C Kunisaki, I Endo, T Matsuda, Y Sumi, K Yamashita, M Yamamoto, Y Matsuda, S Kanaji, T Oshikiri, T Nakamura, S Suzuki, Y Kakeji, RK Cleary, AM Morris, AL Halverson, KA Mirkin, AS Kulaylat, CS Hollenbeak, E Messaris, S Atallah, B Martin-Perez, M Albert, T deBeche-Adams, G Nassif, L Hunter, S Larach, MX Bjørn, SK Perdawood, Z Shen, Y Ye, Q Xie, K Jiang, S Wang, G Wang, Z Wang, Z Jiang, J Liu, J Zhao, J Li, A Arezzo, MA Bonino, F Ris, L Boni, E Cassinotti, DCC Foo, NF Shum, A Brolese, F Ciarleglio, DS Keller, R Rosati, Nardi P De, U Elmore, Romario U Fumagalli, MD Jafari, A Pigazzi, E Rybakov, M Alekseev, N Vettoretto, R Cirocchi, R Passera, 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X Cheng, R Zhao, E Janssen, B Subtil, la Jara Ortiz F de, HMW Verheul, DVF Tauriello, Therapeutics Tizona, LLC Inc, Sankyo Co Daiichi, SE BioNTech, DS Neel, TG Bivona, A Bardelli, S Corso, A Bertotti, S Hobor, E Valtorta, G Siravegna, E Scala, A Cassingena, D Zecchin, M Apicella, G Migliardi, F Galimi, C Lauricella, C Zanon, T Perera, S Veronese, G Corti, A Amatu, M Gambacorta, M Sausen, VE Velculescu, P Comoglio, L Trusolino, Nicolantonio F Di, S Giordano, A Jahangiri, Lay M De, LM Miller, WS Carbonell, YL Hu, K Lu, MW Tom, J Paquette, TA Tokuyasu, S Tsao, R Marshall, A Perry, KM Bjorgan, MM Chaumeil, SM Ronen, G Bergers, MK Aghi, CJ LaFargue, P Amero, K Noh, LS Mangala, Y Wen, E Bayraktar, S Umamaheswaran, E Stur, SK Dasari, C Ivan, S Pradeep, W Yoo, C Lu, NB Jennings, V Vathipadiekal, W Hu, A Chelariu-Raicu, Z Ku, H Deng, W Xiong, HJ Choi, M Hu, T Kiyama, CA Mao, R Ali-Fehmi, MJ Birrer, N Zhang, G Lopez-Berestein, Franciscis V de, Z An, AK Sood, M Hao, S Hou, W Li, K Li, L Xue, Q Hu, L Zhu, Y Chen, H Sun, C Ju, YL Tang, DD Li, JY Duan, LM Sheng, J Manzi, CO Hoff, R Ferreira, A Pimentel, J Datta, AS Livingstone, R Vianna, P Abreu, GM Ramzy, M Norkin, T Koessler, L Voirol, M Tihy, D Hany, T McKee, N Buchs, M Docquier, C Toso, L Rubbia-Brandt, G Bakalli, S Guerrier, J Huelsken, P Nowak-Sliwinska, JD Fumet, A Hoos, AM Eggermont, S Janetzki, FS Hodi, R Ibrahim, A Anderson, R Humphrey, B Blumenstein, L Old, J Wolchok, F Tartari, M Santoni, L Burattini, P Mazzanti, A Onofri, R Berardi, J Zugazagoitia, C Guedes, S Ponce, I Ferrer, S Molina-Pinelo, L Paz-Ares, Velzen MJM van, S Derks, Grieken NCT van, Mohammad N Haj, Laarhoven HWM van, N Huyghe, P Baldin, den Eynde M Van, G Trimaglio, AF Tilkin-Mariamé, V Feliu, F Lauzéral-Vizcaino, M Tosolini, C Valle, M Ayyoub, O Neyrolles, N Vergnolle, Y Rombouts, C Devaud, AD Kostic, E Chun, L Robertson, JN Glickman, CA Gallini, M Michaud, TE Clancy, DC Chung, P Lochhead, GL Hold, EM El-Omar, D Brenner, CS Fuchs, M Meyerson, WS Garrett, LS Pessoa, M Heringer, VP Ferrer, Maghvan P Vaseghi, S Jeibouei, ME Akbari, V Niazi, F Karami, A Rezvani, N Ansarinejad, M Abbasinia, G Sarvari, H Zali, R Talaie, A Dey, S Pathak, S Prasad, AS Zhang, H Zhang, XF Sun, A Banerjee Show less

Colorectal cancer (CRC) is the third most common cancer worldwide, and the second most common cause of cancer-related death. In 2020, the estimated number of deaths due to CRC was approximately 930000 Show more

Colorectal cancer (CRC) is the third most common cancer worldwide, and the second most common cause of cancer-related death. In 2020, the estimated number of deaths due to CRC was approximately 930000, accounting for 10% of all cancer deaths worldwide. Accordingly, there is a vast amount of ongoing research aiming to find new and improved treatment modalities for CRC that can potentially increase survival and decrease overall morbidity and mortality. Current management strategies for CRC include surgical procedures for resectable cases, and radiotherapy, chemotherapy, and immunotherapy, in addition to their combination, for non-resectable tumors. Despite these options, CRC remains incurable in 50% of cases. Nonetheless, significant improvements in research techniques have allowed for treatment approaches for CRC to be frequently updated, leading to the availability of new drugs and therapeutic strategies. This review summarizes the most recent therapeutic approaches for CRC, with special emphasis on new strategies that are currently being studied and have great potential to improve the prognosis and lifespan of patients with CRC. Show less

📄 PDF DOI: 10.5306/wjco.v15.i9.1136

review

Phenanthrene Appending Ruthenium Complexes: DNA Binding, Molecular Docking, TDDFT Calculation, and Photocytoxicity In Vitro

Xue‐Wen Liu, Liang Ma, Geng‐Jun He +4 more · 2024 · Applied Organometallic Chemistry · Wiley · added 2026-05-01

Xue‐Wen Liu, Liang Ma, Geng‐Jun He, Xia Hu, Yuan‐Dao Chen, Jun‐Ling Jin, Song‐Bai Zhang Show less

📄 PDF DOI: 10.1002/aoc.7735

Biometal

Ferroptosis in lung cancer: a novel pathway regulating cell death and a promising target for drug therapy

Li Xing, Shaohui Wang, H Sung +944 more · 2023 · Cell Death Discovery · Nature · added 2026-04-20

Li Xing, Shaohui Wang, H Sung, J Ferlay, RL Siegel, M Laversanne, I Soerjomataram, A Jemal, C Xia, X Dong, H Li, M Cao, D Sun, S He, W Cao, HD Chen, YW Yu, N Li, WQ Chen, BC Bade, CS Dela Cruz, AH Nielsen, U Fredberg, F Wu, L Wang, C Zhou, MI Toki, K Harrington, KN Syrigos, R Rosell, N Karachaliou, O Arrieta, RS Herbst, D Morgensztern, C Boshoff, ZF Lim, PC Ma, J Liu, M Hong, Y Li, D Chen, Y Wu, Y Hu, SJ Dixon, KM Lemberg, MR Lamprecht, R Skouta, EM Zaitsev, CE Gleason, J Li, F Cao, HL Yin, ZJ Huang, ZT Lin, N Mao, DH Manz, NL Blanchette, BT Paul, FM Torti, SV Torti, Y Mou, J Wang, J Wu, D He, C Zhang, C Duan, RS Hotchkiss, A Strasser, JE McDunn, PE Swanson, DL Vaux, D Moujalled, JR Liddell, ML Coleman, EA Sahai, M Yeo, M Bosch, A Dewar, MF Olson, M Suzanne, H Steller, X Chen, PB Comish, D Tang, R Kang, JR Hunt, MK Georgieff, IV Milto, IV Suhodolo, VD Prokopieva, TK Klimenteva, DJ Lane, AM Merlot, ML Huang, DH Bae, PJ Jansson, S Sahni, MW Hentze, MU Muckenthaler, B Galy, C Camaschella, D Galaris, A Barbouti, K Pantopoulos, T Nakamura, I Naguro, H Ichijo, C Yu, W Hou, Y Xie, X Song, X Sun, MT Lotze, HJ Zeh, A Donovan, CA Lima, JL Pinkus, GS Pinkus, LI Zon, S Robine, M Kruszewski, HB Dunford, A Hamaï, M Mehrpour, LJ Su, JH Zhang, H Gomez, R Murugan, X Hong, D Xu, S Doll, M Conrad, S Zalba, TL Ten Hagen, MP Wymann, R Schneiter, MM Gaschler, BR Stockwell, D Li, H Kuwata, S Hara, VE Kagan, G Mao, F Qu, JP Angeli, CS Croix, GE Winter, LS Musavi, ED Lee, B Snijder, M Rebsamen, P Vishnupriya, A Aparna, VP Viswanadha, WS Yang, KJ Kim, M Patel, MS Shchepinov, NK Singh, GN Rao, Y Zou, ET Graham, AA Deik, JK Eaton, W Wang, B Yan, Y Ai, Q Sun, Y Ma, Y Cao, H Lv, C Zhen, P Yang, L Hu, P Shang, J Lewerenz, SJ Hewett, Y Huang, M Lambros, PW Gout, PW Kalivas, H Sato, H Imai, M Matsuoka, T Kumagai, T Sakamoto, T Koumura, R SriRamaratnam, ME Welsch, K Shimada, VS Viswanathan, P Koppula, L Zhuang, B Gan, X Wang, Z Huang, Y Zhou, J Xia, W Hu, R Kong, N Wang, W Han, W Bao, J Lu, K Bersuker, JM Hendricks, Z Li, L Magtanong, B Ford, PH Tang, FP Freitas, R Shah, M Aldrovandi, MC da Silva, I Ingold, E Mishima, J Ito, Z Wu, A Wahida, C Mao, X Liu, Y Zhang, G Lei, Y Yan, H Lee, M Soula, RA Weber, O Zilka, H Alwaseem, K La, F Yen, VAN Kraft, CT Bezjian, S Pfeiffer, L Ringelstetter, C Müller, F Zandkarimi, J Vasquez-Vivar, Z Shi, S Tan, R Brigelius-Flohé, C Wang, Z Yang, Y Bai, T Shukuya, ME Poh, J Ni, K Chen, J Zhang, X Zhang, S Sui, L Zhang, S Xu, Z Wang, X Tian, Y Yang, L Ma, X Pan, Z Lin, D Jiang, Y Yu, D Yang, H Zhou, FJ Li, HZ Long, ZW Zhou, HY Luo, SG Xu, LC Gao, Z Fan, G Yang, W Zhang, Q Liu, G Liu, P Liu, L Feng, K Zhao, L Sun, X Yin, C Liu, M Chen, Y Jiang, Y Sun, X Wu, Z Sui, H Zhang, Y Wang, Z Yu, X Ji, J Qian, SMJ Rahman, PJ Siska, BK Harris, L Bai, L Zhi, Q Zhao, Y Chen, H Tian, J Jin, KR Zhang, YF Zhang, HM Lei, YB Tang, CS Ma, QM Lv, Y Xu, D Lv, C Yan, H Su, Y Shi, K Wang, J He, C Tu, H Xu, Y Lv, F He, L Antonucci, M Karin, E Panieri, L Saso, J Yang, Z Zhao, B Cao, S Yu, S Sajadimajd, M Khazaei, Z Ou, R Chen, X Niu, D Wu, J Duan, H Xiao, L Zhao, YP Kang, A Mockabee-Macias, C Jiang, A Falzone, N Prieto-Farigua, E Stone, W Liu, W Duan, J Song, S Wei, S Xia, H Wang, Q Huang, S Cheng, D Pei, B Proneth, YY Tyurina, E Panzilius, S Kobayashi, HL Zhang, BX Hu, ZL Li, T Du, JL Shan, ZP Ye, R Sha, C Yuan, X Sheng, J Peng, S Li, F Li, C Lv, QK Yang, H Wu, A Liu, J Hou, X Wen, C Li, S Xiong, T Yue, X Yang, X Hu, N Guo, YS Guan, Q He, Q Zou, L Yang, W Cui, Y Liu, QR Sun, L Jiang, N Kon, T Li, SJ Wang, T Su, H Hibshoosh, W Gu, G Kroemer, C Huang, M Yang, J Deng, P Li, W Su, R Jiang, W Yang, X He, Z Zhang, X Zheng, KR Marshall, M Gong, L Wodke, JH Lamb, DJ Jones, PB Farmer, L Kondiparthi, A Jo, JH Bae, YJ Yoon, TH Chung, EW Lee, YH Kim, JY Song, J Marszalek, EA Craig, EM Terzi, VO Sviderskiy, SW Alvarez, GC Whiten, R Possemato, T Papagiannakopoulos, AL Moreira, S Adams, KM Fujihara, BZ Zhang, TD Jackson, MO Ogunkola, B Nijagal, JV Milne, X Ye, C Ji, C Cheng, R Tang, J Xu, L Liu, XZ Yu, TS Li, LX Song, PL Chen, TL Suo, P Chen, WM Li, Q Lu, XL Yan, ZP Zhang, Z Ma, D Liu, W Li, S Di, Y Lai, L Ho, GR Crabtree, CR Clapier, J Iwasa, BR Cairns, CL Peterson, R Yang, N Liu, L Chen, JR Misra, KD Irvine, CG Hansen, YL Ng, WL Lam, SW Plouffe, KL Guan, PC Hsu, DM Jablons, CT Yang, L You, D Jin, J Guo, J Du, S Magesh, D Cai, K Yu, Z Qian, Y Miao, S Qiu, J Cui, D Glick, S Barth, KF Macleod, F Kuang, DJ Klionsky, E Park, SW Chung, B Zhou, JD Mancias, SP Gygi, JW Harper, AC Kimmelman, S Zhu, Q Wen, D Nandi, P Tahiliani, A Kumar, D Chandu, J Park, J Cho, EJ Song, Y Meng, H Sun, S Zhao, J Su, F Zeng, Q Yang, J Chen, L Yao, Z Tang, W Jiang, M Mao, J Zhao, N Cheng, C Meng, J Zhan, G Shao, D Huang, Q Li, Y Tang, Y Qu, M Esteller, Y He, X Jiang, L Duan, Q Xiong, Y Yuan, G Bi, J Liang, M Zhao, X Jin, T Lu, A Malhotra, PTB Ho, IM Clark, LTT Le, MA Iqbal, S Arora, G Prakasam, GA Calin, MA Syed, Z Song, G Jia, P Ma, S Cang, X Lu, N Kang, X Ling, M Pan, W Du, S Gao, D Wei, YQ Ke, P Duan, L Zhou, CY Wang, P Cao, Q Chen, Q Pan, H Gao, X Zhong, LS Kristensen, TB Hansen, MT Venø, J Kjems, G Shan, MS Andersen, LVW Stagsted, KK Ebbesen, FA Karreth, PP Pandolfi, Y Luo, Q Zhang, B Lv, Y Shang, O Li, J Kang, JJ Zhang, LW Hu, L Li, W Shanshan, M Hongying, F Jingjing, Y Yiming, R Yu, Y Rui, C Pan, K Wei, J Huang, Z Guo, Y Niu, X Xu, WX Peng, P Koirala, YY Mo, H Lu, S Wu, P Kim, X Zhou, J Yao, R Li, S Su, D Ye, W Lu, X Li, X Sui, N Hu, P Wang, G Xiu, M Wang, L Ouyang, W Lai, C Gai, M Yu, J Zheng, N Zhang, M Xu, T Chen, D Priem, G van Loo, MJM Bertrand, C Gao, F Xiao, Z Aburjania, S Jang, J Whitt, R Jaskula-Stzul, H Chen, JB Rose, J Xiao, M Liu, B Lian, N Vu, M Kim, D Stephenson, H MacKnight, C Chalfant, X Zeng, D Lu, M Yin, M Shan, Y Gao, S Liu, S Yan, J Zhu, R Lu, C Kang, K Tang, B Xu, Q Han, Y Xia, C Gong, AA Abdelgalil, HM Alkahtani, FI Al-Jenoobi, G Blumenschein, E Lachaier, C Louandre, C Godin, Z Saidak, M Baert, M Diouf, L Freire Boullosa, J Van Loenhout, T Flieswasser, J De Waele, C Hermans, H Lambrechts, W Zhou, M Yan, S Lian, K Sun, W Wu, Z Geng, H Bai, T Liu, B Zhang, H Yu, Z Han, Z Xu, C An, L Xu, H Xin, J Kryczka, KH Czarnecka-Chrebelska, E Brzeziańska-Lasota, L Galluzzi, L Senovilla, I Vitale, J Michels, I Martins, O Kepp, Z Liang, W Zhao, L Meng, Z Cui, C Abdel Shaheed, GE Ferreira, A Dmitritchenko, AJ McLachlan, RO Day, B Saragiotto, D Ding, J Laengle, J Kabiljo, L Hunter, J Homola, S Prodinger, G Egger, T Zhang, B Sun, C Zhong, K Xu, P Hofman, H Yan, H Liu, C Wu, LF Ye, KR Chaudhary, AD Harken, CJ Kinslow, PS Upadhyayula, CH Hsieh, HC Hsieh, FS Shih, PW Wang, LX Yang, DB Shieh, G Zhu, H Chi, Y Yin, H Diao, Z Liu, C Ge, S Zhang, H Mu, S Zheng, Z Tan, X Huang, US Neill, T Efferth, G Chen, F Benthani, D Liang, Z Bian, X Dai, W Chen, S Mo, H Yi, H Yao, L Lu, G He, M Wu, B Yuan, F Liao, Y Ren, X Deng, T Yang, N Han, X Peng, Q Ma, OA Ahmed Hamdi, SN Syed Abdul Rahman, K Awang, N Abdul Wahab, CY Looi, NF Thomas, R Zhang, T Pan, Y Xiang, M Zhang, H Xie, SW Ng, Y Chan, DK Chellappan, T Madheswaran, F Zeeshan, YL Chan, Y Fan, B Han, F Chen, S Alakurtti, T Mäkelä, S Koskimies, J Yli-Kauhaluoma, WY Yan, J Cai, JN Wang, YS Gong, XB Ding, KS Prabhu, AA Bhat, KS Siveen, S Kuttikrishnan, SS Raza, T Raheed, R Xu, J Tian, W Teng, D Boulghobra, PE Grillet, M Laguerre, M Tenon, J Fauconnier, P Fança-Berthon, M Shao, Q Jiang, C Shen, L Qiu, L Zhu, Y Lu, Z Sun, J Han, YY Zeng, YB Luo, XD Ju, YJ Cui, YB Pan, W Koch, W Kukula-Koch, Z Marzec, E Kasperek, L Wyszogrodzka-Koma, W Szwerc, Y Tsai, JC Merritt, SD Richbart, EG Moles, AJ Cox, KC Brown, SL Miles, K Srinivasan, XY Liu, DG Wei, RS Li, Q Wu, J Feng, L Yan, HQ Zhang, XF Xie, GM Li, JR Chen, MT Li, SL Morris-Natschke, KH Lee, CY Wu, YH Yang, YS Lin, GH Chang, MS Tsai, CM Hsu, S Chen, Y Guo, R Zhao, M Jiang, H Fu, UM Nazim, JK Jeong, SY Park, Q Gao, L Gu, A Gepdiremen, V Mshvildadze, H Süleyman, R Elias, D Wang, Y Lou, P Huang, M Jin, M Adnan, A Rasul, G Hussain, MA Shah, MK Zahoor, H Anwar, JS Lou, LP Zhao, ZH Huang, XY Chen, JT Xu, WC Tai, P Waiwut, A Inujima, H Inoue, I Saiki, H Sakurai, B Jiang, M Wan, A Vanduchova, P Anzenbacher, E Anzenbacherova, M Russo, C Spagnuolo, GL Russo, K Skalicka-Woźniak, M Daglia, E Sobarzo-Sánchez, Y Iida, M Okamoto-Katsuyama, S Maruoka, K Mizumura, T Shimizu, S Shikano, SM Lee, BS Bae, HW Park, NG Ahn, BG Cho, YL Cho, FG Zhai, QC Liang, YY Wu, JQ Liu, JW Liu, F Huang, J Pang, W Niu, YY Zhao, YQ Yang, HH Sheng, Q Tang, L Han, SM Wang, L Zeng, L Lignitto, SE LeBoeuf, H Homer, S Jiang, M Askenazi, TR Karakousi, M Yamamoto, TW Kensler, H Motohashi, W Cheng, M Guo, M Shen, D Kong, J Shao, C Liang, L Mahoney-Sánchez, H Bouchaoui, S Ayton, D Devos, JA Duce, JC Devedjian Show less

Lung cancer is a common malignant tumor that occurs in the human body and poses a serious threat to human health and quality of life. The existing treatment methods mainly include surgical treatment, Show more

Lung cancer is a common malignant tumor that occurs in the human body and poses a serious threat to human health and quality of life. The existing treatment methods mainly include surgical treatment, chemotherapy, and radiotherapy. However, due to the strong metastatic characteristics of lung cancer and the emergence of related drug resistance and radiation resistance, the overall survival rate of lung cancer patients is not ideal. There is an urgent need to develop new treatment strategies or new effective drugs to treat lung cancer. Ferroptosis, a novel type of programmed cell death, is different from the traditional cell death pathways such as apoptosis, necrosis, pyroptosis and so on. It is caused by the increase of iron-dependent reactive oxygen species due to intracellular iron overload, which leads to the accumulation of lipid peroxides, thus inducing cell membrane oxidative damage, affecting the normal life process of cells, and finally promoting the process of ferroptosis. The regulation of ferroptosis is closely related to the normal physiological process of cells, and it involves iron metabolism, lipid metabolism, and the balance between oxygen-free radical reaction and lipid peroxidation. A large number of studies have confirmed that ferroptosis is a result of the combined action of the cellular oxidation/antioxidant system and cell membrane damage/repair, which has great potential application in tumor therapy. Therefore, this review aims to explore potential therapeutic targets for ferroptosis in lung cancer by clarifying the regulatory pathway of ferroptosis. Based on the study of ferroptosis, the regulation mechanism of ferroptosis in lung cancer was understood and the existing chemical drugs and natural compounds targeting ferroptosis in lung cancer were summarized, with the aim of providing new ideas for the treatment of lung cancer. In addition, it also provides the basis for the discovery and clinical application of chemical drugs and natural compounds targeting ferroptosis to effectively treat lung cancer. Show less

📄 PDF DOI: 10.1038/s41420-023-01407-z

Fe ROS review

Biogenic Imaging Contrast Agents

Q. Dan, X. Dan, R. Jiang +1557 more · 2023 · Advanced Science · Wiley · added 2026-04-20

Q. Dan, X. Dan, R. Jiang, Z. Wang, D. Dai, L. Sun, A. Caschera, L. Lazzara, D. Piergallini, B. Ricci, A. Tuscano, F. Vanzulli, D. R. Czeyda‐Pommersheim, J. R. Martin, B. Costello, J. Kalb, N. Wallyn, S. Anton, T. F. Akram, S. N. Vandamme, M. A. Gandhi, J. G. Brown, D. A. Wong, C. B. Aguirre, N. Sirlin, E. Naseri, F. Ajorlou, Y. Asghari, N. Pilehvar‐Soltanahmadi, P. Tsapis, I. Dey, N. Blakey, V. T. C. Stone, X. Tsang, T. T. W. Li, G. S. Wong, K. D. Filonov, L.‐M. Piatkevich, J. Ting, K. Zhang, V. V. Kim, L. Verkhusha, A. R. Truong, P. Ferre‐D'Amare, P. J. Charalampaki, A. Proskynitopoulos, M. Heimann, A. J. Nakamura, M. G. Sinnamon, Y. Neuwirth, S. M. Song, S. Schultz, X. Liu, C. M. Xu, G. C. Sehgal, T. Karakousis, M. von Knorring, A. Mogensen, S. V. Upadhyay, D. Dalvi, A. Maresca, M. Lakshmanan, A. Abedi, A. Bar‐Zion, G. J. Farhadi, J. O. Lu, D. Szablowski, S. Wu, M. G. Yoo, N. Shapiro, S. von Knebel Doeberitz, L. Maksimovic, D. Loi, A. Paech, G. J. Lakshmanan, A. Lu, S. P. 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Donat, V. Bradley, A. A. Ntziachristos, T. Szalay, A. Repenko, A. Rix, J. Nedilko, A. Rose, R. Hermann, S. Vinokur, R. Moli, M. Cao‐Milan, G. Mayer, A. von Plessen, L. Fery, W. De Laporte, D. N. Lederle, A. J. C. Chigrin, J. E. Kuehne, Z. Lemaster, A. Wang, F. Hariri, Y. Hu, C. V. Huang, R. Barback, N. C. Cochran, J. V. Gianneschi, R. J. Jokerst, A. E. Paproski, K. Forbrich, M. M. Wachowicz, R. J. Hitt, A. Zemp, F. Farhadi, G. G. Sigmund, M. G. Westmeyer Show less

Abstract Imaging contrast agents are widely investigated in preclinical and clinical studies, among which biogenic imaging contrast agents (BICAs) are developing rapidly and playing an increasingly i Show more

Abstract Imaging contrast agents are widely investigated in preclinical and clinical studies, among which biogenic imaging contrast agents (BICAs) are developing rapidly and playing an increasingly important role in biomedical research ranging from subcellular level to individual level. The unique properties of BICAs, including expression by cells as reporters and specific genetic modification, facilitate various in vitro and in vivo studies, such as quantification of gene expression, observation of protein interactions, visualization of cellular proliferation, monitoring of metabolism, and detection of dysfunctions. Furthermore, in human body, BICAs are remarkably helpful for disease diagnosis when the dysregulation of these agents occurs and can be detected through imaging techniques. There are various BICAs matched with a set of imaging techniques, including fluorescent proteins for fluorescence imaging, gas vesicles for ultrasound imaging, and ferritin for magnetic resonance imaging. In addition, bimodal and multimodal imaging can be realized through combining the functions of different BICAs, which helps overcome the limitations of monomodal imaging. In this review, the focus is on the properties, mechanisms, applications, and future directions of BICAs. Show less

📄 PDF DOI: 10.1002/advs.202207090

Fe amino-acid imaging review

Targeting Transcription Factors ATF5, CEBPB and CEBPD with Cell-Penetrating Peptides to Treat Brain and Other Cancers

A.W. Greene, J. Baek, O. Ashenberg +1163 more · 2023 · Cells · MDPI · added 2026-04-20

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Stephens, J.M. Adams, S. Cory, C.T. Ishida, Y. Zhang, M.E. Halatsch, M.A. Westhoff, D. Kaloni, S.T. Diepstraten, A. Strasser, G.L. Kelly, M.A. Anderson, P.E. Czabotar, G. Lessene, A.L. Koessinger, C. Cloix, D. Koessinger, D.H. Heiland, F.J. Bock, K. Strathdee, K. Kinch, L. Martinez-Escardo, N.R. Paul, C. Nixon, W. He, M. Morsch, M. Ismail, F.U. Rehman, M. Zheng, R. Chung, M.D. Wendt, S.H.M. Wong, W.Y. Kong, C.M. Fang, H.S. Loh, L.H. Chuah, S. Abdullah, S.C. Ngai, X. Zhai, P. Liang, H. Cui, S. Ishihara, M. Yasuda, A. Ishizu, M. Ishikawa, H. Shirato, H. Haga, S. Banerjee, N. Aykin-Burns, K.J. Krager, S.K. Shah, S.B. Melnyk, M. Hauer-Jensen, S.A. Pawar, D.Y. Zhang, C. Dmello, L. Chen, V.A. Arrieta, E. Gonzalez-Buendia, J.R. Kane, L.P. Magnusson, A. Baran, C.D. James, C. Horbinski, I. Ullah, K. Chung, S. Bae, C. Kim, B. Choi, H.Y. Nam, C.O. Yun, K.Y. Lee, P. Weyerhauser, S.R. Kantelhardt, E.L. Kim, N.J. Caron, S.P. Quenneville, J.P. Tremblay, S.Y. Van Der Zanden, X. Qiao, J. Neefjes, V. Aragon-Sanabria, A. Aditya, F. Chen, B. Yoo, T. Cao, B. Madajewski, R. Lee, M.Z. Turker, K. Ma, F. Iwamoto, V. Gondi, N. Butowski, G. Falchook, A. Williams, K. Peters, J. Evans, N. Lakhani, M. McKean, S. Symeonides, J. Dauparas, I. Anishchenko, N. Bennett, H. Bai, R.J. Ragotte, L.F. Milles, B.I.M. Wicky, A. Courbet, R.J. de Haas, N. Bethel, L. Chang, A. Mondal, A. Perez, R.A. Bottens, T. Yamada, A. Shoari, R. Tooyserkani, M. Tahmasebi, D. Lowik Show less

Developing novel therapeutics often follows three steps: target identification, design of strategies to suppress target activity and drug development to implement the strategies. In this review, we re Show more

Developing novel therapeutics often follows three steps: target identification, design of strategies to suppress target activity and drug development to implement the strategies. In this review, we recount the evidence identifying the basic leucine zipper transcription factors ATF5, CEBPB, and CEBPD as targets for brain and other malignancies. We describe strategies that exploit the structures of the three factors to create inhibitory dominant-negative (DN) mutant forms that selectively suppress growth and survival of cancer cells. We then discuss and compare four peptides (CP-DN-ATF5, Dpep, Bpep and ST101) in which DN sequences are joined with cell-penetrating domains to create drugs that pass through tissue barriers and into cells. The peptide drugs show both efficacy and safety in suppressing growth and in the survival of brain and other cancers in vivo, and ST101 is currently in clinical trials for solid tumors, including GBM. We further consider known mechanisms by which the peptides act and how these have been exploited in rationally designed combination therapies. We additionally discuss lacunae in our knowledge about the peptides that merit further research. Finally, we suggest both short- and long-term directions for creating new generations of drugs targeting ATF5, CEBPB, CEBPD, and other transcription factors for treating brain and other malignancies. Show less

📄 PDF DOI: 10.3390/cells12040581

amino-acid review

Computational analyses of mechanism of action (MoA): data, methods and integration †

S. Trapotsi, G. Drakakis, A. Koutsoukas +1688 more · 2022 · RSC Chemical Biology · Royal Society of Chemistry · added 2026-04-20

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Moore, D. G. Murray, B. Steiner, P. Tucker, V. Vasudevan, P. Warden, M. Wicke, Y. Yu, X. Zheng, A. Paszke, S. Gross, F. Massa, A. Lerer, G. Chanan, T. Killeen, Z. Lin, N. Gimelshein, L. Antiga, A. Desmaison, A. Köpf, E. Yang, Z. DeVito, M. Raison, A. Tejani, S. Chilamkurthy, L. Fang, S. Chintala, P. Zakeri, T. Haber, K. C. Bulusu, L. Kalash, M. A. Firth, Z. Ji, J. Su, H. Wang, D. Huang, X. Zhou, O. Weinreb, T. Amit, M. B. H. Youdim, N. L. Patel-Murray, M. Adam, N. Huynh, B. T. Wassie, P. Milani, E. Fraenkel, J. Vialard, P. Buijnsters, I. Velter, A. Vapirev, M. F. Cuccarese, B. A. Earnshaw, K. Heiser, B. Fogelson, P. F. McLean, H. B. Gordon, K.-R. Skelly, F. L. Weathersby, V. Rodic, I. K. Quigley, E. D. Pastuzyn, B. M. Mendivil, N. H. Lazar, C. A. Brooks, J. Carpenter, B. L. Probst, P. Jacobson, S. W. Glazier, J. Ford, J. D. Jensen, N. D. Campbell, M. A. Statnick, A. S. Low, K. R. Thomas, S. S. Hegde, R. W. Alfa, M. L. Victors, I. S. Haque, M. Kibble, N. Saarinen, F. Iorio, S. Mäkelä, T. Aittokallio, M. Iwata, R. Sawada, H. Iwata, M. Kotera, Y. Yamanishi, E. Dazert, M. Colombi, T. Boldanova, S. Moes, D. Adametz, L. Quagliata, V. Roth, L. Terracciano, M. H. Heim, P. Jenoe, M. N. Hall, D. Carrella, F. Napolitano, R. Rispoli, M. Miglietta, A. Carissimo, L. Cutillo, F. Sirci, F. Gregoretti, D. Di Bernardo, A. Conesa, S. Beck Show less

The elucidation of a compound's Mechanism of Action (MoA) is a challenging task in the drug discovery process, but it is important in order to rationalise phenotypic findings and to anticipate potenti Show more

The elucidation of a compound's Mechanism of Action (MoA) is a challenging task in the drug discovery process, but it is important in order to rationalise phenotypic findings and to anticipate potential side-effects. Bioinformatic approaches, advances in machine learning techniques and the increasing deposition of high-throughput data in public databases have significantly contributed to recent advances in the field, but it is not straightforward to decide which data and methods are most suitable to use in a given case. In this review, we focus on these methods and data and their applications in generating MoA hypotheses for subsequent experimental validation. We discuss compound-specific data such as -omics, cell morphology and bioactivity data, as well as commonly used supplementary prior knowledge such as network and pathway data, and provide information on databases where this data can be accessed. In terms of methodologies, we discuss both well-established methods (connectivity mapping, pathway enrichment) as well as more developing methods (neural networks and multi-omics integration). Finally, we review case studies where the MoA of a compound was successfully suggested from computational analysis by incorporating multiple data modalities and/or methodologies. Our aim for this review is to provide researchers with insights into the benefits and drawbacks of both the data and methods in terms of level of understanding, biases and interpretation – and to highlight future avenues of investigation which we foresee will improve the field of MoA elucidation, including greater public access to -omics data and methodologies which are capable of data integration. Show less

📄 PDF DOI: 10.1039/d1cb00069a

ML review

Role of AMPK in Regulation of Oxaliplatin-Resistant Human Colorectal Cancer

Y. Park, P. Xu, D.M. Parkin +324 more · 2022 · Biomedicines · MDPI · added 2026-04-20

Y. Park, P. Xu, D.M. Parkin, F. Bray, J. Ferlay, P. Pisani, N. Andre, W. Schmiegel, B. Gustavsson, G. Carlsson, D. Machover, N. Petrelli, A. Roth, H. Schmoll, K. Tveit, F. Gibson, G. Housman, S. Byler, S. Heerboth, K. Lapinska, M. Longacre, N. Snyder, S. Sarkar, L. Bao, S. Hazari, S. Mehra, D. Kaushal, K. Moroz, S. Dash, Z. Yuan, X. Shi, Y. Qi, T. Jia, X. Yuan, Y. Zou, C. Liu, H. Yu, Y. Yuan, X. He, A.K. Pandurangan, D. Chao, W. Jiao, C. Yin, N. Jianyun, C. Ceshi, A. Guerrero-Zotano, I.A. Mayer, C.L. Arteaga, C. Han, G. Xing, M. Zhang, M. Zhong, Z. Han, C. He, X. Liu, Z. Zou, T. Tao, H. Li, X. Zhu, D.D. Sarbassov, S.M. Ali, D.M. Sabatini, D. Heras-Sandoval, J.M. Pérez-Rojas, J. Hernández-Damián, J. Pedraza-Chaverri, J. Roper, M.P. Richardson, W.V. Wang, L.G. Richard, W. Chen, E.M. Coffee, M.J. Sinnamon, L. Lee, P. Chen, R.T. Bronson, Y. Kondo, T. Kanzawa, R. Sawaya, S. Kondo, W. Li, Y. Zhou, J. Yang, H. Zhang, P. Zheng, Z. Wang, N. Wang, P. Liu, X. Xie, D. Zhang, W. Wang, X. Sun, D. Xu, C. Wang, Q. Zhang, H. Wang, W. Luo, Y. Chen, H. Chen, Z. Cao, Y. Yang, S. Yu, Y. Li, J. Huang, L. Xiong, S. Lei, C. Peng, M.G. Vander Heiden, L.C. Cantley, C.B. Thompson, D.H. Suh, M.A. Kim, H. Kim, M. Kim, H.S. Kim, H.H. Chung, Y. Kim, Y.S. Song, J. Peng, Y. Cui, S. Xu, X. Wu, Y. Huang, W. Zhou, S. Wang, Z. Fu, H. Xie, G. Wang, Y. Yu, Y.Z. Wang, P.H. Yin, K. Xu, H. Bleiberg, P. Perego, J. Robert, W. Lian, M. Li, R.N. Seetharam, A. Sood, S. Goel, E. Martinez-Balibrea, A. Martínez-Cardús, A. Ginés, V. Ruiz de Porras, C. Moutinho, L. Layos, J.L. Manzano, C. Bugés, S. Bystrup, M. Esteller, P. Noordhuis, A.C. Laan, K. Van de Born, R.J. Honeywell, G.J. Peters, W. Sun, Y. Ge, J. Cui, B. Liu, W. Lu, M. Ma, Q. Yan, W. He, Y. Hu, L. Xia, W. Hou, J. Chai, H. Guo, J. Yu, S.H. Bae, J.H. Park, H.G. Choi, S.H. Kim, H.Y. Yoo, S.Y. Park, S.Y. Chang, G. Meyer, A. Czompa, C. Reboul, E. Stepania, A. Czegledi, I. Bak, G. Balla, J. Balla, A. Tosaki, I. Lekli, W. Cao, J. Li, K. Yang, D. Cao, I. Tanida, T. Ueno, E. Kominami, J.M. Woynarowski, S. Faivre, M.C. Herzig, B. Arnett, W.G. Chapman, A.V. Trevino, E. Raymond, S.G. Chaney, A. Vaisman, M. Varchenko, R. Teng, J. Zhou, B. Seifer, J. Shen, L. Wang, H.R. Kang, C.K. Jeon, S. Lim, J.I. Barrasa, A. Santiago-Gómez, N. Olmo, M.A. Lizarbe, J. Turnay, A. Derjuga, C. Richard, M. Crosato, P.S. Wright, L. Chalifour, J. Valdez, A. Barraso, H.A. Crissman, W. Nishioka, E.M. Bradbury, Q. Shi, S. Li, L. Jin, H. Lai, Y. Wu, Z. Cai, M. Zhu, Q. Li, C.W. Yao, K.A. Kang, M.J. Piao, Y.S. Ryu, P.M.D.J. Fernando, M.C. Oh, J.E. Park, K. Shilnikova, S.-Y. Na, S.U. Jeong, Y. Zhao, X. Hu, Y. Liu, S. Dong, Z. Wen, S. Zhang, Q. Huang, M. Shi, V.G.A. Arciuch, M.A. Russo, K.S. Kang, A.D. Cristofano, L. Vucicevic, M. Misirkic, J. Kristina, U. Vilimanovich, E. Sudar, E. Isenovic, M. Prica, L. Harhaji-Trajkovic, T. Kravic-Stevovic, B. Vladimir, S. Lee, W. Yang, D.K. Kim, M. Shin, K.U. Choi, D.S. Suh, Y.H. Kim, T.-H. Hwang, J.H. Kim, C. Wu, Y. Chao, S. Shiah, W. Lin, M. Mouradian, K.D. Kikawa, B.P. Dranka, S.M. Komas, B. Kalyanaraman, R.S. Pardini, F. Gharibpoor, S.K. Zonouzi, S. Razi, H. Rezaei, Z. Yao, F. Xie, Z. Liang, W. Xu, H. Zhou, L.-H. Qu, D. Catanzaro, D. Gabbia, V. Cocetta, M. Biagi, E. Ragazzi, M. Montopoli, M. Carrara, X. Cao, L. Fang, S. Gibbs, Z. Dai, P. Wen, X. Zheng, W. Sadee, D. Sun, E.E. Mendoza, M.G. Pocceschi, X. Kong, D.B. Leeper, J. Caro, K.H. Limesand, R. Burd, E. Domenech, C. Maestre, L. Esteban-Martínez, D. Partida, R. Pascual, G. Fernandez-Miranda, E. Seco, R. Campos-Olivas, M. Perez, D. Megias Show less

Oxaliplatin is a platinum analog that can interfere with DNA replication and transcription. Continuous exposure to oxaliplatin results in chemoresistance; however, this mechanism is not well known. In Show more

Oxaliplatin is a platinum analog that can interfere with DNA replication and transcription. Continuous exposure to oxaliplatin results in chemoresistance; however, this mechanism is not well known. In this study, oxaliplatin-resistant (OR) colorectal cancer (CRC) cells of HCT116, HT29, SW480 and SW620 were established by gradually increasing the drug concentration to 2.5 μM. The inhibitory concentrations of cell growth by 50% (IC 50 ) of oxaliplatin were 4.40–12.7-fold significantly higher in OR CRC cells as compared to their respective parental (PT) CRC cells. Phospho-Akt and phospho-mammalian target of rapamycin (mTOR) decreased in PT CRC cells but was overexpressed in OR CRC cells in response to oxaliplatin. In addition, an oxaliplatin-mediated decrease in phospho-AMP-activated protein kinase (AMPK) in PT CRC cells induced autophagy. Contrastingly, an increased phospho-AMPK in OR CRC cells was accompanied by a decrease in LC3B, further inducing the activity of glycolytic enzymes, such as glucose transporter 1 (GLUT1), 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase 3 (PFKFB3) and phosphofructokinase 1 (PFK1), to mediate cell survival. Inhibition of AMPK in OR CRC cells induced autophagy through inactivation of Akt/mTOR pathway and a decrease in GLUT1, PFKFB3, and PFK1. Collectively, targeting AMPK may provide solutions to overcome chemoresistance in OR CRC cells and restore chemosensitivity to anticancer drugs. Show less

📄 PDF DOI: 10.3390/biomedicines10112690

Pt amino-acid anticancer

Sensitization of FOLFOX-resistant colorectal cancer cells via the modulation of a novel pathway involving protein phosphatase 2A

T. Narayan, A. Dutta, A. Agarwal +541 more · 2022 · iScience · Elsevier · added 2026-04-20

T. Narayan, A. Dutta, A. Agarwal, R.J. MacKenzie, R. Pippa, C.A. Eide, J. Oddo, J.W. Tyner, R. Sears, M.P. Vitek, M.D. Odero, D.J. Christensen, B.J. Druker, A. Ashkenazi, R.C. Pai, S. Fong, S. Leung, D.A. Lawrence, S.A. Marsters, C. Blackie, L. Chang, A.E. McMurtrey, A. Hebert, A. Bene, T.C. Chambers, I. Beuvink, A. Boulay, S. Fumagalli, F. Zilbermann, S. Ruetz, T. O'Reilly, F. Natt, J. Hall, H.A. Lane, G. Thomas, M. Bhat, N. Robichaud, L. Hulea, N. Sonenberg, J. Pelletier, I. Topisirovic, R. Briffa, S.P. Langdon, G. Grech, D.J. Harrison, B.A. Carneiro, W.S. El-Deiry, T.C. Chou, A.E. Collier, D.F. Spandau, R.C. Wek, I. Cristobal, R. Manso, R. Rincón, C. Caramés, C. Senin, A. Borrero, J. Martínez-Useros, M. Rodriguez, S. Zazo, O. Aguilera, R. Rincon, C. Carames, J. Madoz-Gurpide, F. Rojo, J. Garcia-Foncillas, R.M. De Palma, S.R. Parnham, Y. Li, J.J. Oaks, Y.K. Peterson, Z.M. Szulc, B.M. Roth, Y. Xing, B. Ogretmen, D. Deng, K. Shah, M.J. Fournier, L. Coudert, S. Mellaoui, P. Adjibade, C. Gareau, M.F. Côté, R.C. Gaudreault, R. Mazroui, A.M. Gaben, C. Saucier, M. Bedin, V. Barbu, J. Mester, C. Filion, D. Martel, Y. Labelle, A.G. Georgakilas, O.A. Martin, W.M. Bonner, M.J. Gerdes, C.J. Sevinsky, A. Sood, S. Adak, M.O. Bello, A. Bordwell, A. Can, A. Corwin, S. Dinn, R.J. Filkins, M. Gorospe, X. Wang, K.Z. Guyton, N.J. Holbrook, M.M. Gottesman, J.R. Graff, B.W. Konicek, J.H. Carter, E.G. Marcusson, R.S. Herbst, S.G. Eckhardt, R. Kurzrock, S. Ebbinghaus, P.J. O'Dwyer, M.S. Gordon, W. Novotny, M.A. Goldwasser, T.M. Tohnya, B.L. Lum, S.D. Heys, K.G. Park, M.A. McNurlan, A.G. Calder, V. Buchan, K. Blessing, O. Eremin, P.J. Garlick, B. Hoang, A. Benavides, Y. Shi, Y. Yang, P. Frost, J. Gera, A. Lichtenstein, A.N. Hobden, E. Cundliffe, N. Ikoma, K. Raghav, G. Chang, A. Ishitsuka, E. Fujine, Y. Mizutani, C. Tawada, H. Kanoh, Y. Banno, M. Seishima, S. Iwasaki, N.T. Ingolia, S.C. Jahn, P.E. Corsino, B.J. Davis, M.E. Law, P. Nørgaard, B.K. Law, V. Janssens, S. Longin, J. Goris, M.A. Jensen, V. Ferretti, R.L. Grossman, L.M. Staudt, Y.H. Jin, K.J. Yoo, Y.H. Lee, S.K. Lee, A. Kahvejian, Y.V. Svitkin, R. Sukarieh, M.N. M'Boutchou, S.K. Kelley, L.A. Harris, D. Xie, L. Deforge, K. Totpal, J. Bussiere, J.A. Fox, S.L. Kim, Y.C. Liu, Y.R. Park, S.Y. Seo, S.H. Kim, I.H. Kim, S.O. Lee, S.T. Lee, D.G. Kim, S.W. Kim, N.N. Kreis, F. Louwen, J. Yuan, M. Law, E. Forrester, A. Chytil, P. Corsino, G. Green, B. Davis, T. Rowe, B. Law, S.L. Lehman, G.J. Cerniglia, G.J. Johannes, J. Ye, S. Ryeom, C. Koumenis, S. Lek, J. Vargas-Medrano, E. Villanueva, B. Marcus, W. Godfrey, R.G. Perez, J. Lemke, S. von Karstedt, J. Zinngrebe, H. Walczak, D. Leonard, W. Huang, S. Izadmehr, C.M. O'Connor, D.D. Wiredja, Z. Wang, N. Zaware, Y. Chen, D.M. Schlatzer, J. Kiselar, V. Leung-Pineda, C.E. Ryan, H. Piwnica-Worms, L. Li, J. Wang, J.G. Li, Z. Wu, P. Ma, X.J. Lian, I.E. Gallouzi, H. Lin, X. Qiu, B. Zhang, J. Zhang, T.A. Lin, X. Kong, T.A.J. Haystead, A. Pause, G. Belsham, J.C. Lawrence, J. Lu, J.S. Kovach, F. Johnson, J. Chiang, R. Hodes, R. Lonser, Z. Zhuang, M. Mahyar-Roemer, K. Roemer, A. Maiuthed, C. Ninsontia, K. Erlenbach-Wuensch, B. Ndreshkjana, J.K. Muenzner, A. Caliskan, H. Ahmed P, A.P. Husayn, C. Chaotham, A. Hartmann, K. Malinowsky, U. Nitsche, K.P. Janssen, F.G. Bader, C. Spath, E. Drecoll, G. Keller, H. Hofler, S. Mazhar, S.E. Taylor, J. Sangodkar, G. Narla, K. McClinch, R.A. Avelar, D. Callejas, D. Wiredja, A. Perl, D.B. Kastrinsky, D. Schlatzer, M. Cooper, D.R. McIlwain, T. Berger, T.W. Mak, N. Melling, R. Simon, J.R. Izbicki, L.M. Terracciano, C. Bokemeyer, G. Sauter, A.H. Marx, J.R. Mills, Y. Hippo, F. Robert, S.M.H. Chen, A. Malina, C.J. Lin, U. Trojahn, H.G. Wendel, A. Charest, R.T. Bronson, C.S. Mitsiades, S.P. Treon, N. Mitsiades, Y. Shima, P. Richardson, R. Schlossman, T. Hideshima, K.C. Anderson, K. Morita, S. He, R.P. Nowak, M.W. Zimmerman, C. Fu, A.D. Durbin, M.W. Martel, N. Prutsch, N.S. Gray, S. Narayan, A.S. Jaiswal, R. Sharma, A. Nawab, L.V. Duckworth, M. Zajac-Kaye, T.J. George, J. Sharma, A.K. Sharma, R.A. Hromas, S. Ramisetti, A. Singh-Pillay, P. Singh, S. Amin, P. Palaiologos, D. Chrysikos, S. Theocharis, G. Kouraklis, G.J. Belsham, A.C. Gingras, O. Donzé, M.D. Ralff, P.G. Richardson, C. Eng, J. Kolesar, N.R. Rodrigues, A. Rowan, M.E. Smith, I.B. Kerr, W.F. Bodmer, J.V. Gannon, D.P. Lane, H.K. Roy, B.F. Olusola, D.L. Clemens, W.J. Karolski, A. Ratashak, H.T. Lynch, T.C. Smyrk, E. Rozengurt, H.P. Soares, J. Sinnet-Smith, P.P. Ruvolo, R. Tohme, E.K. Schmidt, G. Clavarino, M. Ceppi, P. Pierre, R.R. Sharma, T.S. Ravikumar, D. Raimo, W.L. Yang, R.L. Siegel, K.D. Miller, H.E. Fuchs, A. Jemal, J.C. Soria, Z. Márk, P. Zatloukal, B. Szima, I. Albert, E. Juhász, J.L. Pujol, J. Kozielski, N. Baker, D. Smethurst, W. Stöcklein, W. Piepersberg, A. Surov, P. Clauser, Y.W. Chang, L. Martincich, S.C. Partridge, J.Y. Kim, H.J. Meyer, A. Wienke, A. Suzuki, T. Ito, H. Kawano, M. Hayashida, Y. Hayasaki, Y. Tsutomi, K. Akahane, T. Nakano, M. Miura, K. Shiraki, T. Araki, S. Tahmasebi, T. Alain, V.K. Rajasekhar, J.P. Zhang, M. Prager-Khoutorsky, A. Khoutorsky, Y. Dogan, C.G. Gkogkas, E. Petroulakis, A. Sylvestre, A. Thorburn, K. Behbakht, H. Ford, H. Tian, E.K. Wittmack, T.J. Jorgensen, R. Tohmé, S. Gandhe, G. Tabaro, S. Vallabhaneni, A. Thomas, N. Vasireddi, N.S. Dhawan, A. Ma'ayan, N. Sharma, C. Vaklavas, S.W. Blume, W.E. Grizzle, K. Van der Jeught, H.C. Xu, Y.J. Li, X.B. Lu, G. Ji, A. Montinaro, R.E. Miller, K. Ariail, B. Gliniak, T.S. Griffith, M. Kubin, W. Chin, J. Jones, A. Woodward, T. Le, H. Wang, Y. Liu, J. Ding, Y. Huang, J. Liu, N. Liu, Y. Ao, Y. Hong, L. Wang, L. Zhang, M. Wang, E. Yaaghubi, A.F. Ghilardi, R.B. Ferreira, C.W. Chiang, O.A. Guryanova, D. Kopinke, C.D. Heldermon, S.S. Wang, E.D. Esplin, J.L. Li, L. Huang, A. Gazdar, J. Minna, G.A. Evans, X.W. Wang, Y.J. Zhang, J.S. Warmus, G.J. Dilley, A.I. Meyers, F. Wei, Y. Zhang, L. Geng, P. Zhang, G. Wang, R.H. Weiss, J. Westermarck, N. Wu, Z. Du, Y. Zhu, Y. Song, L. Pang, Z. Chen, J. Xu, P. Wang, H. Yang, J. Zhou, X. Li, W. Xue, C. Yu, Y. Tian, F. Zhu, J.Y. Zhou, W.Z. Wei, G.S. Wu, S.Q. Xu, P. Yaffee, A. Osipov, C. Tan, R. Tuli, A. Hendifar, L. Yong, Z. YuFeng, B. Guang, P.E. Young, C.M. Womeldorph, E.K. Johnson, J.A. Maykel, B. Brucher, A. Stojadinovic, I. Avital, A. Nissan, S.R. Steele, Y. Yu, S.S. Kanwar, B.B. Patel, J. Nautiyal, F.H. Sarkar, A.P. Majumdar, B. Fang, N. Fujita, T. Tsuruo, X. Zhou, W. Liu, X. Hu, A. Dorrance, R. Garzon, P.J. Houghton, C. Shen Show less

Summary The treatment of colorectal cancer (CRC) with FOLFOX shows some efficacy, but these tumors quickly develop resistance to this treatment. We have observed increased phosphorylation of AKT1/mTO Show more

Summary The treatment of colorectal cancer (CRC) with FOLFOX shows some efficacy, but these tumors quickly develop resistance to this treatment. We have observed increased phosphorylation of AKT1/mTOR/4EBP1 and levels of p21 in FOLFOX-resistant CRC cells. We have identified a small molecule, NSC49L, that stimulates protein phosphatase 2A (PP2A) activity, downregulates the AKT1/mTOR/4EBP1-axis, and inhibits p21 translation. We have provided evidence that NSC49L- and TRAIL-mediated sensitization is synergistically induced in p21-knockdown CRC cells, which is reversed in p21-overexpressing cells. p21 binds with procaspase 3 and prevents the activation of caspase 3. We have shown that TRAIL induces apoptosis through the activation of caspase 3 by NSC49L-mediated downregulation of p21 translation, and thereby cleavage of procaspase 3 into caspase 3. NSC49L does not affect global protein synthesis. These studies provide a mechanistic understanding of NSC49L as a PP2A agonist, and how its combination with TRAIL sensitizes FOLFOX-resistant CRC cells. Show less

📄 PDF DOI: 10.1016/j.isci.2022.104518

amino-acid synthesis

Monofunctional Platinum(II) Anticancer Agents

M. Jin, H. Itamochi, J. Kigawa +532 more · 2021 · Pharmaceuticals · MDPI · added 2026-04-20

M. Jin, H. Itamochi, J. Kigawa, M.J. McKeage, K.H. Lee, M.S. Hyun, H.K. Kim, H.M. Jin, J. Yang, H.S. Song, Y.R. Do, H.M. Ryoo, J.S. Chung, D.Y. Zang, R.G. Kenny, S.W. Chuah, A. Crawford, C.J. Marmion, T.C. Johnstone, K. Suntharalingam, S.J. Lippard, S. Dilrub, G.V. Kalayd, X.Y. Wang, Z.J. Guo, A.A. Argyriou, P. Polychronopoulos, G. Iconomou, E. Chroni, H.P. Kalofonos, S.R. McWhinney, R.M. Goldberg, H.L. McLeod, Y.Z. Min, C.Q. Mao, S.M. Chen, G.L. Ma, J. Wang, Y.Z. Liu, D. Wang, V. Brabec, O. Hrabina, J. Kasparkova, S. Usanova, A. Piée-Staffa, U. Sied, J. Thomale, A. Schneider, B. Kaina, B. Köberle, W. Sakai, E.M. Swisher, B.Y. Karlan, M.K. Agarwal, J. Higgins, C. Friedman, E. Villegas, C. Jacquemont, D.J. Farrugia, F.J. Couch, G.Y. Park, W.J. Guo, Y.M. Zhang, L. Zhang, B. Huang, F.F. Tao, W. Chen, Q. Xu, Y. Sun, I.A. Riddell, J. Malina, N.P. Farrell, S.M. Alexander, W. Lin, K.S. Lovejoy, M. Serova, I. Bieche, S. Emami, M. D’Incalci, M. Broggini, E. Erba, C. Gespach, E. Cvitkovic, S. Faivre, W. Zhou, M. Almeqdadi, M.E. Xifaras, Ö.H. Yilmaz, J.J. Wilson, J.P. Macquet, J.L. Butour, M.J. Cleare, J.D. Hoeschele, W.I. Sundquist, D.P. Bancroft, L.S. Hollis, J.N. Burstyn, W.J. Heiger-Bernays, S.F. Bellon, K.J. Ahmed, A.R. Amundsen, E.W. Stern, S. Zhang, J.E. Shima, L.L. Lagpacan, Y. Shu, A. Lapuk, Y. Chen, T. Komori, J.W. Gray, X. Chen, R.C. Todd, M.S. McCormick, J.A. D’Aquino, J.T. Reardon, A. Sancar, K.M. Giacomini, G.Y. Zhu, X.H. Huang, Y. Song, A. Casini, J. Reedijk, M.W. Kellinger, J. Chong, A.A. Almaqwashi, M.N. Naufer, M.C. Williams, M.T. Gregory, Y.S. Lee, W. Yang, H. Baruah, C.L. Rector, S.M. Monnier, U. Bierbach, R. Guddneppanavar, G. Saluta, G.L. Kucera, J.R. Choudhury, A.R. Kheradi, B.D. Steen, C.S. Day, C.L. Smyre, T.E. Kute, G.V. Kalayda, B.A.J. Jansen, P. Wielaard, H.J. Tanke, C. Molenaar, M. Ferrari, J. Brouwer, S.D. Wu, C.C. Zhu, Y.J. Song, Y.Z. Li, C.L. Zhang, Z. Yu, W.J. He, Y.F. He, Z.F. Chen, S.P. Zhang, L. Shen, Z.Z. Zhu, J. Zhang, C. Zhang, R.L. Guan, X.X. Liao, C. Ouyang, T.W. Rees, J.P. Liu, L.N. Ji, H. Chao, S. Bonnet, L.M. Dabids, B. Kleemann, Z.J. Zhou, J.B. Song, L.M. Nie, X.Y. Chen, M. Ethirajan, Y.H. Chen, P. Joshi, R.K. Pandey, A. Naik, R. Rubbiani, G. Gasser, B. Spingler, G.C. Yu, S. Yu, M.L. Saha, J. Zhou, T.R. Cook, B.C. Yung, J. Chen, Z.W. Mao, F.W. Zhang, A.M. Santoro, M.C. Lo Giudice, A. D’Urso, R. Lauceri, R. Purrello, D. Milardi, I.O. Bacellar, T.M. Tsubone, C. Pavani, M.S. Baptista, T.T. Tasso, L.M. Mattiazzi, T.V. Acunha, B.A. Iglesias, G.K. Couto, B.S. Pacheco, V.M. Borba, J.C.R. Junior, T.L. Oliveira, N.V. Segatto, F.K. Seixas, T. Collares, X.J. Hu, K. Ogawa, S. Li, T. Kiwada, A. Odani, X.L. Xu, F.W. Lin, Y. Du, X. Zhang, J. Wu, Z.K. Xu, X. Li, B.D. Zheng, X.H. Peng, S.Z. Li, J.W. Ying, Y. Zhao, J.D. Huang, J. Yoon, R.C.H. Wonga, P.C. Lo, D.K.P. Ng, K. Mitra, M. Samsó, C.E. Lyonsb, M.C.T. Hartman, J.F. Mao, J.H. Zhu, M.K. Raza, S. Gautam, A. Garai, P. Kondaiah, A.R. Chakravarty, B. Wang, H.X. Yuan, Z. Liu, C.Y. Nie, L.B. Liu, F.T. Lv, Y.L. Wang, S. Wang, X.L. Xue, H.C. Chen, Y. Bai, X.C. Shi, Y. Jiao, Z.Y. Chen, Y.P. Miao, C. Settembre, A. Fraldi, D.L. Medina, A. Ballabio, S.R. Bonam, F.J. Wang, S. Muller, A.V. Klein, T.W. Hambley, C.G. Qian, H.B. Fang, H.K. Liu, H. Yuan, W.T. Liu, Y.F. Zhong, L.Y. Liu, C.T. Shen, W.J. Zeng, F.Y. Wang, D.Z. Yang, X.H. Zheng, G. Mu, T.P. Zhang, Q. Cao, H. Zhang, Y.W. Zhou, Y. Shen, P.Z. Qin, Y. Li, E. Freisinger, R.K.O. Sigel, B. Dumat, G. Bordeau, E. Faurel-Paul, F. Mahuteau-Betzer, N. Saettel, G. Metge, C. Fiorini-Debuisschert, F. Charra, M.P. Teulade-Fichou, C.P. Tan, U. Basu, B. Banik, R. Wen, R.K. Pathak, S. Dhar, M. Kansara, M.T. Teng, M.J. Smyth, D.M. Thomas, E. Alpaslan, H. Yazici, N.H. Golshan, K.S. Ziemer, T.J. Webster, D.E. Reed, K.M. Shokat, J.S. Whelan, L.E. Davis, G. Makris, E.D. Tseligka, I. Pirmettis, M.S. Papadopoulos, I.S. Vizirianakis, D. Papagiannopoulou, Z.Q. Zhang, C. Luo, K. Wang, S.R. Zhang, H. Hamidi, J. Ivaska, T. Chatzisideri, S. Thysiadis, S. Katsamakas, P. Dalezis, I. Sigala, T. Lazarides, E. Nikolakaki, D. Trafalis, O.A. Gederaas, M. Lindgren, A. Zamora, A. Gandioso, A. Massaguer, S. Buenestado, C. Calvis, J.L. Hernández, F. Mitjans, V. Rodríguez, J. Ruiz, V. Marchán, T. Wu, Y. Dai, A.A. Franich, M.D. Živković, T. Ilić-Tomić, I.S. Đorđević, J. Nikodinović-Runić, A. Pavić, G.V. Janjić, S. Rajković, U.E. Martinez-Outschoorn, M. Peiris-Pages, R.G. Pestell, F. Sotgia, M.P. Lisanti, Y.H. Yang, S. Karakhanova, W. Hartwig, J.G. D’haese, P.P. Philippov, J. Werner, A.V. Bazhin, M.G. Vander Heiden, L.C. Cantley, C.B. Thompson, D.C. Wallace, S. Marrachea, R.W. Taylor, D.M. Turnbull, P. Bouwman, J. Jonkers, C. Holohan, S. Van Schaeybroeck, D.B. Longley, P.G. Johnston, S. Fulda, L. Galluzzi, G. Kroemer, N. Lomeli, K.J. Di, J. Czerniawski, J.F. Guzowski, D.A. Bota, Y. Guo, D.F. Song, Z.H. Wang, Y.J. Wang, H.M. Zhang, Z.J. Gan, N. Muhammad, P. Imming, C. Sinning, A. Meyer, R. Ramsay, K. Tipton, N.K. Tonks, L.P. Lu, M.L. Zhu, C.X. Yuan, W.R. Wang, J.W. Wang, X.H. Li, Y.B. Wu, S.D. Li, S. Xing, X.Q. Fu, D.W. Zhang, Y.M. Yip, L.B. Li, S.N. Li, J.J. Li, W.Q. Dai, Q.H. Zhang, J. Feng, L.W. Wu, T. Liu, Q. Yu, S.Z. Xu, W.W. Wang, K. Muhammad, N. Sadia, Z.Y. Pan, P.A. Waghorn, M.R. Jackson, V. Gouverneur, K.A. Vallis, A. Paul, B. Maji, S.K. Misra, A.K. Jain, K. Muniyappa, S. Bhattacharya, G.B. Huang, S. Chen, Q.P. Qin, J.R. Luo, M.X. Tan, Z.F. Wang, B.Q. Zou, H. Liang, X.L. Huang, Y. Zhang, S.L. Wang, H.H. Zou, L. Wang, Z.X. Long, Z.K. Song, T. Xie, S.H. Zhang, Y.C. Liu, B. Lin, M. Sabbatini, I. Zanellato, M. Ravera, E. Gabano, E. Perin, B. Rangone, D. Osella, D.Y.Q. Wong, W.W.F. Ong, W.H. Ang, K.B. Huang, H.W. Feng, H.J. Luo, Y. Long, T.T. Zou, A.S.C. Chan, R. Liu, K. Al-Khayal, M.A. Vaali-Mohammed, M. Elwatidy, T. Bin Traiki, O. Al-Obeed, M. Azam, Z. Khan, M. Abdulla, R. Ahmad, K. Choroba, B. Machura, L.R. Raposo, J.G. Małecki, S. Kula, M. Pająk, K. Erfurt, A.M. Maroń, A.R. Fernandes, X.M. Tang, X. Wang, Y.N. Liu, G. Ferraro, T. Marzo, T. Infrasca, A. Cilibrizzi, R. Vilar, L. Messori, A. Merlino, Z. Li, Y. Gan, Y.H. Yin, W.C. Zhang, J.F. Yang, Y.X. Tang, Y.B. Dai, C. Icsel, V.T. Yilmaz, B. Cevatemre, M. Aygun, E. Ulukaya, I. Khan, B. Maity, J.Y. Zhang, C. Tu, J. Lin, J. Ding, L.P. Lin, Z.M. Wang, C. He, C.H. Yan, X.Z. You Show less

Platinum-based anticancer drugs represented by cisplatin play important roles in the treatment of various solid tumors. However, their applications are largely compromised by drug resistance and side Show more

Platinum-based anticancer drugs represented by cisplatin play important roles in the treatment of various solid tumors. However, their applications are largely compromised by drug resistance and side effects. Much effort has been made to circumvent the drug resistance and general toxicity of these drugs. Among multifarious designs, monofunctional platinum(II) complexes with a general formula of [Pt(3A)Cl] + (A: Ammonia or amine) stand out as a class of “non-traditional” anticancer agents hopeful to overcome the defects of current platinum drugs. This review aims to summarize the development of monofunctional platinum(II) complexes in recent years. They are classified into four categories: fluorescent complexes, photoactive complexes, targeted complexes, and miscellaneous complexes. The intention behind the designs is either to visualize the cellular distribution, or to reduce the side effects, or to improve the tumor selectivity, or inhibit the cancer cells through non-DNA targets. The information provided by this review may inspire researchers to conceive more innovative complexes with potent efficacy to shake off the drawbacks of platinum anticancer drugs. Show less

📄 PDF DOI: 10.3390/ph14020133

Pt anticancer imaging photoactivated review

The Mechanism of Warburg Effect-Induced Chemoresistance in Cancer.

Chang Liu, Ying Jin, Zhimin Fan · 2021 · Frontiers in Oncology · Frontiers · added 2026-04-20

Although chemotherapy can improve the overall survival and prognosis of cancer patients, chemoresistance remains an obstacle due to the diversity, heterogeneity, and adaptability to environmental alte Show more

Although chemotherapy can improve the overall survival and prognosis of cancer patients, chemoresistance remains an obstacle due to the diversity, heterogeneity, and adaptability to environmental alters in clinic. To determine more possibilities for cancer therapy, recent studies have begun to explore changes in the metabolism, especially glycolysis. The Warburg effect is a hallmark of cancer that refers to the preference of cancer cells to metabolize glucose anaerobically rather than aerobically, even under normoxia, which contributes to chemoresistance. However, the association between glycolysis and chemoresistance and molecular mechanisms of glycolysis-induced chemoresistance remains unclear. This review describes the mechanism of glycolysis-induced chemoresistance from the aspects of glycolysis process, signaling pathways, tumor microenvironment, and their interactions. The understanding of how glycolysis induces chemoresistance may provide new molecular targets and concepts for cancer therapy. Show less

📄 PDF DOI: 10.3389/fonc.2021.698023

review

Tumor-Associated Macrophages Promote Oxaliplatin Resistance via METTL3-Mediated m⁶A of TRAF5 and Necroptosis in Colorectal Cancer

Huanrong Lan, Yuyao Liu, Jinlong Liu +4 more · 2021 · Molecular Pharmaceutics · ACS Publications · added 2026-04-20

Huanrong Lan, Yuyao Liu, Jinlong Liu, Xuanwei Wang, Zhonghai Guan, Jinlin Du, Ketao Jin Show less

As a third-generation platinum drug, oxaliplatin (OX) is widely used as the first-line chemotherapeutic agent in the treatment of colorectal cancer (CRC). CRC cells acquire resistance to chemotherapy Show more

As a third-generation platinum drug, oxaliplatin (OX) is widely used as the first-line chemotherapeutic agent in the treatment of colorectal cancer (CRC). CRC cells acquire resistance to chemotherapy and develop resistance, which is a major challenge for the treatment of advanced CRC. Recent studies have suggested that the therapeutic resistance of tumors is affected by the tumor microenvironment (TME). As a critical role among TME, tumor-associated macrophages (TAMs) play an important role. However, their regulatory mechanism underlying the drug resistance in CRC remains largely unknown. In the present study, we found that the density of macrophages infiltrated into the CRC tissues from OX-resistant patients was significantly higher compared with the OX-sensitive patients. Interestingly, both the total N⁶-methyladenosine (m⁶A) RNA content and the expression of its critical methyltransferase METTL3 were increased in the CRC tissues from OX-resistant patients compared with the OX-sensitive patients. Furthermore, we demonstrated that the M2-polarized TAMs enabled the OX resistance via the elevation of METTL3-mediated m⁶A modification in cells. Through whole-genome CRISPR screening and further validation, we found that TRAF5 contributes to the METTL3-triggered OX resistance in CRC cells. This study unveiled that M2-TAMs were important mediators for the acquisition of OX resistance. Furthermore, we provided evidence that targeting of M2-TAMs and METTL3-mediated m⁶A modification might be a promising adjuvant therapeutic strategy for CRC patients, especially for OX-resistant CRC patients. Show less

no PDF DOI: 10.1021/acs.molpharmaceut.0c00961

anticancer cancer chemotherapy resistance colorectal cancer crispr screening drug resistance mettl3 oxaliplatin

Converting an Almost Noncytotoxic Ru(II) Complex with Photolabile Ligands into a Highly Efficient PACT Agent

Shuang Qi, Zhihui Jin, Yuanjun Hou +3 more · 2021 · Particle & Particle Systems Characterization · Wiley · added 2026-05-01

Shuang Qi, Zhihui Jin, Yuanjun Hou, Chao Li, Xuesong Wang, Qianxiong Zhou Show less

📄 PDF DOI: 10.1002/ppsc.202100193

Biometal

B7-H3 promotes aerobic glycolysis and chemoresistance in colorectal cancer cells by regulating HK2

Shenghua Shi, Huimin Lu, Tongguo Shi +96 more · 2019 · Cell Death & Disease · Nature · added 2026-04-20

Shenghua Shi, Huimin Lu, Tongguo Shi, R Baena, P Salinas, JA Meyerhardt, RJ Mayer, AI Chapoval, M Sun, L Ni, C Dong, Z Bin, VA Ingebrigtsen, B Jiang, P Zhang, Z Chen, K Ning, J Jin, X Han, ZZ Sun, D Hanahan, RA Weinberg, MGV Heiden, LC Cantley, CB Thompson, H Ngo, SM Tortorella, K Ververis, TC Karagiannis, SCJ Yeung, J Pan, MH Lee, JW Kim, I Tchernyshyov, GL Semenza, CV Dang, PS Ward, KT Pate, X Ma, S Lim, CE Nunesxavier, M Li, YH Liu, X Wei, GQ Hu, TX Wang, F Liu, T Zhang, S Zou, D Hua, ST Zou, B Bhattacharya, MFM Omar, R Soong, A Wolf, I Papandreou, RA Cairns, L Fontana, AL Lim, NC Denko, KS Gill, RG Coelho, A Mukherjee, X Huang, B Choi, H Pae, Y Kim, H Chung, SP Mathupala, YH Ko, PL Pedersen, W Guo, X Lv, L Yao, J Zhang, P Han, C Li, LH Gregersen, B Zhuo, Z Li, X Li, S Wu, M Xue, W Chen, SH Park, W Zhang, C He, OA Ulanovskaya, J Cui, SJ Kron, SA Kozmin, TAD Smith, SME Sayed, K Kawauchi, K Araki, K Tobiume, N Tanaka, D Sun, M Liu Show less

Accumulating evidence suggests that aerobic glycolysis is important for colorectal cancer (CRC) development. However, the underlying mechanisms have yet to be elucidated. B7-H3, an immunoregulatory pr Show more

Accumulating evidence suggests that aerobic glycolysis is important for colorectal cancer (CRC) development. However, the underlying mechanisms have yet to be elucidated. B7-H3, an immunoregulatory protein, is broadly overexpressed by multiple tumor types and plays a vital role in tumor progression. In this study, we found that overexpression of B7-H3 effectively increased the rate of glucose consumption and lactate production, whereas knockdown of B7-H3 had the opposite effect. Furthermore, we showed that B7-H3 increased glucose consumption and lactate production by promoting hexokinase 2 (HK2) expression in CRC cells, and we also found that HK2 was a key mediator of B7-H3-induced CRC chemoresistance. Depletion of HK2 expression or treating cells with HK2 inhibitors could reverse the B7-H3-induced increase in aerobic glycolysis and B7-H3-endowed chemoresistance of cancer cells. Moreover, we verified a positive correlation between the expression of B7-H3 and HK2 in tumor tissues of CRC patients. Collectively, our findings suggest that B7-H3 may be a novel regulator of glucose metabolism and chemoresistance via controlling HK2 expression in CRC cells, a result that could help develop B7-H3 as a promising therapeutic target for CRC treatment. Show less

📄 PDF DOI: 10.1038/s41419-019-1549-6

amino-acid

The essential and multifunctional TFIIH complex

E Rimel, JM Egly, BV Houten +1028 more · 2018 · Protein science : a publication of the Protein Society · Wiley · added 2026-04-20

E Rimel, JM Egly, BV Houten, J Kuper, C Kisker, M Spies, RC Conaway, JW Conaway, WJ Feaver, JQ Svejstrup, L Bardwell, AJ Bardwell, S Buratowski, KD Gulyas, TF Donahue, EC Friedberg, RD Kornberg, NL Henry, O Flores, H Lu, D Reinberg, M Gerard, L Fischer, V Moncollin, JM Chipoulet, P Chambon, L Zawel, L Fisher, J‐M Egly, R Roy, JP Adamczewski, T Seroz, W Vermeulen, JP Tassan, L Schaeffer, EA Nigg, JH Hoeijmakers, H Serizawa, TP Makela, RA Weinberg, RA Young, S Humbert, J Fishburn, E Tomko, E Galburt, S Hahn, S Grunberg, L Warfield, R Drapkin, JT Reardon, A Ansari, JC Huang, K Ahn, A Sancar, P Sung, V Bailly, C Weber, LH Thompson, L Prakash, S Prakash, E Park, SN Guzder, MH Koken, I Jaspers‐Dekker, G Weeda, Z Wang, WJ Feave, X Wu, DA Bushnell, CA Weber, EP Salazar, SA Stewart, P Di Lello, LM Jenkins, TN Jones, BD Nguyen, T Hara, H Yamaguchi, JD Dikeakos, E Appella, P Legault, JG Omichinski, LM Miller Jenkins, C Mas, C Langlois, E Malitskaya, A Fradet‐Turcotte, J Archambault, S Schilbach, M Hantsche, D Tegunov, C Dienemann, C Wigge, H Urlaub, P Cramer, M Fregoso, JP Laine, J Aguilar‐Fuentes, V Mocquet, E Reynaud, F Coin, M Zurita, A Jawhari, S Dubaele, V Lamour, A Poterszman, D Moras, SJ Araujo, F Tirode, H Pospiech, JE Syvaoja, M Stucki, U Hubscher, RD Wood, JC Marinoni, P Miniou, Y Lutz, DM Gomez, G Giglia‐Mari, JA Ranish, D Hoogstraten, A Theil, N Wijgers, NG Jaspers, A Raams, M Argentini, PJ van der Spek, E Botta, M Stefanini, R Aebersold, Y Lu, EC Yi, XJ Li, J Eng, M Herrera, C Braun, DE Kainov, M Vitorino, J Cavarelli, L Radu, E Schoenwetter, J Marcoux, W Koelmel, DR Schmitt, S Cianferani, C Rodolfo, S Fribourg, AM Pedrini, J Luo, P Cimermancic, S Viswanath, CC Ebmeier, B Kim, M Dehecq, V Raman, CH Greenberg, R Pellarin, A Sali, DJ Taatjes, J Ranish, R Shiekhattar, F Mermelstein, RP Fisher, B Dynlacht, HC Wessling, DO Morgan, FH Espinoza, A Farrell, H Erdjument‐Bromage, P Tempst, P Kaldis, A Sutton, MJ Solomon, JY Thuret, JG Valay, G Faye, C Mann, D Hermand, A Pihlak, T Westerling, V Damagnez, J Vandenhaute, G Cottarel, KM Lee, JE Saiz, WA Barton, K Helenius, Y Yang, TV Tselykh, HK Pessa, MJ Frilander, S Larochelle, J Batliner, MJ Gamble, NM Barboza, BC Kraybill, JD Blethrow, KM Shokat, J Chen, R Knights, J Pandur, P Morcillo, B Suter, S Frutiger, GJ Hughes, SA Patel, MC Simon, KY Yankulov, DL Bentley, M Rossignol, I Kolb‐Cheynel, S Inamoto, N Segil, ZQ Pan, M Kimura, RG Roeder, LJ Ko, SY Shieh, X Chen, L Jayaraman, K Tamai, Y Taya, C Prives, M Jaquenoud, AM Fry, D Busso, A Keriel, B Sandrock, O Gileadi, P Jin, HM Chamberlin, BJ Greber, THD Nguyen, J Fang, PV Afonine, PD Adams, E Nogales, BJ Gibbons, EJ Brignole, M Azubel, K Murakami, NR Voss, FJ Asturias, P Schultz, V Mallouh, V Oksenych, A Singh, E Compe, N Le May, W Abdulrahman, I Iltis, A Maglott‐Roth, C Giraudon, Y He, KL Tsai, N Kalisman, C Plaschka, C Burzinski, J Plitzko, C Yan, C Inouye, R Tjian, I Ivanov, BL Allen, A Dvir, KP Garrett, C Chalut, JA Goodrich, A Elias, G Michels, F Sauer, S Boeing, C Rigault, M Heidemann, D Eick, M Meisterernst, Y Kim, S Bjorklund, Y Li, MH Sayre, KD Meyer, S Lin, C Bernecky, Y Gao, D Nair, LC Myers, C Esnault, Y Ghavi‐Helm, S Brun, J Soutourina, N Van Berkum, C Boschiero, F Holstege, M Werner, JH Lee, HS Jung, A Gunzl, G Cai, AK Panigrahi, S Dunham‐Ems, TN Nguyen, JD Radolf, A Günzl, F Kouzine, D Wojtowicz, A Yamane, W Resch, KR Kieffer‐Kwon, R Bandle, S Nelson, H Nakahashi, P Awasthi, L Feigenbaum, H Menoni, J Hoeijmakers, H Ge, TM Przytycka, D Levens, R Casellas, T Kim, RH Ebright, L Spangler, X Wang, FM Fazal, CA Meng, SM Block, EJ Tomko, EA Galburt, B Bernardes de Jesus, A Zhovmer, PJ Mattei, RE Davis, H Jin, CD Kaplan, Y Liu, C Kung, AZ Ansari, KD Westover, P Cabart, A Ujvari, M Pal, DS Luse, K Tran, JD Gralla, RJ Moreland, Q Yan, KM Harlen, LS Churchman, PJ Robinson, MJ Trnka, AL Burlingame, AM Naar, W Zhai, J Fellows, A Gnatt, MS Akhtar, JR Tietjen, DW Zhang, RD Chapman, K Glover‐Cutter, B Erickson, C Zhang, K Shokat, M Kim, H Suh, EJ Cho, TM Sogaard, MA Allen, H Kim, N Fong, JR Jacobsen, K Liang, A Shilatifard, RD Dowell, WM Old, C Jeronimo, F Robert, KH Wong, Y Jin, K Struhl, H Kwak, JT Lis, A Mayer, M Lidschreiber, M Siebert, K Leike, J Soding, GT Booth, IX Wang, VG Cheung, K Adelman, JM Plitzko, A Missra, DS Gilmour, R Amat, M Sanso, JJ Allen, KA Nilson, J Guo, ME Turek, JE Brogie, E Delaney, DH Price, G Diamant, L Amir‐Zilberstein, Y Yamaguchi, H Handa, R Dikstein, J Fitz, T Neumann, R Pavri, JB Rodriguez‐Molina, SC Tseng, SP Simonett, J Taunton, A Shetty, SP Kallgren, C Demel, KC Maier, D Spatt, BH Alver, PJ Park, F Winston, L Viladevall, CV St Amour, A Rosebrock, S Schneider, B Schwer, JK Leatherwood, Q Zhou, T Li, RS Levin, JJ Lipp, VY Wang, AK Greifenberg, EM Quezada, A Ali, A Ghosh, TM Rana, M Geyer, L Tong, CK Ho, S Shuman, P Komarnitsky, SC Schroeder, D Bentley, SS Mandal, C Chu, T Wada, AJ Shatkin, Y Pei, FX Chen, AR Woodfin, A Gardini, RA Rickels, SA Marshall, ER Smith, P Xie, CK Collings, K Cao, Y Aoi, EJ Rendleman, M Ugarenko, PA Ozark, A Zhang, MQ Zhang, M Yu, W Yang, T Ni, Z Tang, T Nakadai, J Zhu, SW Hong, SM Hong, JW Yoo, YC Lee, S Kim, DK Lee, EI Kanin, RT Kipp, M Slattery, A Viale, S Moteki, D Price, SB Ficarro, UB Kang, Y Chun, JA Marto, M de la Mata, CR Alonso, S Kadener, JP Fededa, M Blaustein, F Pelisch, AR Kornblihtt, Y Zhou, X Ji, J Qiu, T Saldi, K Diener, K Jones, XD Fu, MJ Munoz, MS Perez Santangelo, MP Paronetto, S Boireau, C Ben‐Dov, JJ Lozano, G Bird, E Bertrand, T Nojima, T Gomes, AR Grosso, H Kimura, MJ Dye, S Dhir, M Carmo‐Fonseca, NJ Proudfoot, J di Iulio, S Maleri, U Eser, J Vierstra, A Reynolds, R Sandstrom, JA Stamatoyannopoulos, S Medler, W Luo, D Seward, JH Graber, DD Pollock, PC Megee, T Takagi, A Ferdous, T Imai, S Hirose, S Sugimoto, K Yano, GA Hartzog, KO Kizer, HP Phatnani, Y Shibata, H Hall, AL Greenleaf, BD Strahl, DG Skalnik, HH Ng, SM Yoh, JS Lucas, KA Jones, C Deans, KA Maggert, R Bonasio, S Tu, RT Coleman, G Struhl, LJ Gaydos, W Wang, S Strome, F Zenk, E Loeser, R Schiavo, F Kilpert, O Bogdanovic, N Iovino, M Morselli, WA Pastor, B Montanini, K Nee, R Ferrari, K Fu, G Bonora, L Rubbi, AT Clark, S Ottonello, SE Jacobsen, M Pellegrini, JM Simon, KE Hacker, D Singh, AR Brannon, JS Parker, M Weiser, TH Ho, PF Kuan, E Jonasch, TS Furey, JF Prins, JD Lieb, WK Rathmell, IJ Davis, P Kolasinska‐Zwierz, T Down, I Latorre, T Liu, XS Liu, J Ahringer, RF Luco, Q Pan, K Tominaga, BJ Blencowe, OM Pereira‐Smith, T Misteli, RJ Sims, S Millhouse, CF Chen, BA Lewis, JL Manley, P Bailey, AJ Levine, D Chen, T Riedl, E Washbrook, PE Pace, RC Coombes, S Ali, P Chymkowitch, P Charneau, A Stary, A Sarasin, C Rochette‐Egly, S Adam, P Beltrao, V Albanese, LR Kenner, DL Swaney, A Burlingame, J Villen, WA Lim, JS Fraser, J Frydman, NJ Krogan, FCP Holstege, PC van der Vliet, HTM Timmers, Y Ohkuma, L Lariviere, L Wenzeck, M Seizl, M Hemann, EV Petrotchenko, CH Borchers, W Baumeister, F Herzog, E Villa, S Akoulitchev, S Chuikov, S 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Buczkowski, B Bockorny, T Chen, S Li, K Rhee, W Chen, H Terai, T Tavares, AL Leggett, TJ Kim, SH Hong, N Poudel‐Neupane, M Silkes, T Mudianto, L Tan, M Meyerson, AJ Bass, H Watanabe, PS Hammerman, TW Kelso, K Baumgart, T Albert, C Antrecht, S Lemcke, AC Bishop, JA Ubersax, DT Petsch, DP Matheos, J Blethrow, E Shimizu, JZ Tsien, PG Schultz, MD Rose, JL Wood, QL He, DV Titov, J Li, M Tan, Z Ye, Y Zhao, D Romo, JO Liu, B Gilman, S Bhat, WK Low, Y Dang, M Smeaton, AL Demain, PS Miller, JF Kugel, F Chen, X Gao, SG Manzo, ZL Zhou, YQ Wang, J Marinello, JX He, YC Li, J Ding, G Capranico, ZH Miao, JJ Lu, L He, Q Yu, I Jonkers, LJ Core, JJ Waterfall, S Alekseev, M Ayadi, L Brino, AK Larsen, Z Nagy, J Sandoz, A Weiss, WW Tee, SS Shen, O Oksuz, V Narendra, J Baell, MA Walters, S Nagai, X Liu, T Wu, RK Louder, JR López‐Blanco, P Chacón, A Gegonne, JD Weissman, M Zhou, A Dasgupta, R Ribble, JN Brady, DS Singer, N Yudkovsky, AC Seila, JM Calabrese, SS Levine, GW Yeo, RA Flynn, M Okuda, M Kinoshita, E Kakumu, K Sugasawa, Y Nishimura, Y Nakazawa, C Guo, T Ogi, P Ruthemann, C Balbo Pogliano, T Codilupi, Z Garajova, H Naegeli, N Damodaren, T Van Eeuwen, J Zamel, E Lin‐Shiao Show less

Abstract TFIIH is a 10‐subunit complex that regulates RNA polymerase II (pol II) transcription but also serves other important biological roles. Although much remains unknown about TFIIH function in Show more

Abstract TFIIH is a 10‐subunit complex that regulates RNA polymerase II (pol II) transcription but also serves other important biological roles. Although much remains unknown about TFIIH function in eukaryotic cells, much progress has been made even in just the past few years, due in part to technological advances (e.g. cryoEM and single molecule methods) and the development of chemical inhibitors of TFIIH enzymes. This review focuses on the major cellular roles for TFIIH, with an emphasis on TFIIH function as a regulator of pol II transcription. We describe the structure of TFIIH and its roles in pol II initiation, promoter‐proximal pausing, elongation, and termination. We also discuss cellular roles for TFIIH beyond transcription (e.g. DNA repair, cell cycle regulation) and summarize small molecule inhibitors of TFIIH and diseases associated with defects in TFIIH structure and function. Show less

📄 PDF DOI: 10.1002/pro.3424

amino-acid review

Mitochondrial Uncoupling Proteins: Subtle Regulators of Cellular Redox Signaling Reviewing Editors: Jerzy Beltowski, Joseph Burgoyne, Gabor Csanyi, Sergey Dikalov, Frank Krause, Anibal Vercesi, and Jeremy Ward

JP Ježek, AGW Leslie, R Lutter +1993 more · 2018 · Antioxidants & redox signaling · added 2026-04-20

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Hou, Y Ding, T Zhang, C Shi, W Fu, Z Cai, F Yin, H Sancheti, E Cadenas, H Yoshitomi, K Yamazaki, I Tanaka, T Liu, SB Jin, C Ning, U Lendahl, M Nistér, SX Yu, CT Du, W Chen, QQ Lei, N Li, S Qi, XJ Zhang, GQ Hu, XM Deng, WY Han, YJ Yang, XX Yu, W Mao, A Zhong, P Schow, J Brush, SW Sherwood, G Pan, P Perret, O Peroni, YB Kim, XX Zheng, R Shen, CT Lin, JA Porco, HJ Zhang, W Zhao, S Venkataraman, MEC Robbins, GR Buettner, KC Kregel, LW Oberley, I Khvorostov, JS Hong, Y Oktay, L Vergnes, E Nuebel, PN Wahjudi, K Setoguchi, A Do, HJ Jung, JM McCaffery, IJ Kurland, K Reue, WNP Lee, CM Koehler, MA Teitell, K Zhang, Z Song, G Zheng, J Lyu, S Liu, J Huang, C Liu, D Xiang, M Xie, Q Zeng, M Zhou, PKH Tam, KSL Lam, B Huang, Y Liang, D Wu, Y Zhou, T Cai, J Xu, L Jiang, J Wu, Q Sun, R Zhu, A Ebner, T Haselgrübler, HJ Gruber, P Hinterdorfer Show less

Abstract Significance: Mitochondria are the energetic, metabolic, redox, and information signaling centers of the cell. Substrate pressure, mitochondrial network dynamics, and cristae morphology Show more

Abstract Significance: Mitochondria are the energetic, metabolic, redox, and information signaling centers of the cell. Substrate pressure, mitochondrial network dynamics, and cristae morphology state are integrated by the protonmotive force Δ p or its potential component, Δ Ψ , which are attenuated by proton backflux into the matrix, termed uncoupling. The mitochondrial uncoupling proteins (UCP1–5) play an eminent role in the regulation of each of the mentioned aspects, being involved in numerous physiological events including redox signaling. Recent Advances: UCP2 structure, including purine nucleotide and fatty acid (FA) binding sites, strongly support the FA cycling mechanism: UCP2 expels FA anions, whereas uncoupling is achieved by the membrane backflux of protonated FA. Nascent FAs, cleaved by phospholipases, are preferential. The resulting Δ p dissipation decreases superoxide formation dependent on Δ p . UCP-mediated antioxidant protection and its impairment are expected to play a major role in cell physiology and pathology. Moreover, UCP2-mediated aspartate, oxaloacetate, and malate antiport with phosphate is expected to alter metabolism of cancer cells. Critical Issues: A wide range of UCP antioxidant effects and participations in redox signaling have been reported; however, mechanisms of UCP activation are still debated. Switching off/on the UCP2 protonophoretic function might serve as redox signaling either by employing/releasing the extra capacity of cell antioxidant systems or by directly increasing/decreasing mitochondrial superoxide sources. Rapid UCP2 degradation, FA levels, elevation of purine nucleotides, decreased Mg 2+ , or increased pyruvate accumulation may initiate UCP-mediated redox signaling. Future Directions: Issues such as UCP2 participation in glucose sensing, neuronal (synaptic) function, and immune cell activation should be elucidated. Antioxid. Redox Signal. 29, 667–714. Show less

📄 PDF DOI: 10.1089/ars.2017.7225

mitochondria