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Redox and Spin States Series of an Organometallic Heme Analogue Based on a Non-Innocent NHC/N-Donor Hybrid Macrocycle

Massimiliano Morganti, Jan C. Kruse, Sandeep K. Gupta +3 more · 2026 · Inorganic Chemistry · ACS Publications · added 2026-04-20

Massimiliano Morganti, Jan C. Kruse, Sandeep K. Gupta, Sebastian Dechert, Serhiy Demeshko, Franc Meyer Show less

Iron complexes of tetradentate macrocyclic ligands containing N-heterocyclic carbene (NHC) donors have been referred to as organometallic heme analogues, but they usually lack the redox noninno Show more

Iron complexes of tetradentate macrocyclic ligands containing N-heterocyclic carbene (NHC) donors have been referred to as organometallic heme analogues, but they usually lack the redox noninnocence under oxidizing conditions that is characteristic of porphyrins. Here we report a novel NHC/N-donor hybrid macrocyclic ligand containing two trans NHC moieties, a pyridine and a redox active carbazolide fragment. Its Fe^II, Fe^III and formal Fe^IV complexes have been isolated and comprehensively characterized, where UV/vis and ⁵⁷Fe Mössbauer spectroscopies, SQUID magnetometry and density functional theory (DFT) calculations reveal that the latter are best described as Fe^III systems antiferromagnetically coupled to a carbazolide-based organic π-radical. Two different redox series are obtained depending on the axial ligands: nitriles such as MeCN give low-spin (LS) configurations of the metal ion, while in case of weakly coordinating solvents and triflate anions the iron adopts an intermediate-spin (IS) configuration; MeCN binding constants have been determined. As in other heme analogues with NHC-based macrocycles, the strong equatorial σ-donor character raises the energy of the Fe(d_x²-y²) orbital, making high-spin (HS) iron species inaccessible. The combined features of equatorial ligand redox noninnocence, restriction to LS/IS surfaces and tunability via the axial coligands makes this a promising platform for bioinspired reactivity such as the generation of reactive Fe/O_x intermediates. Show less

no PDF DOI: 10.1021/acs.inorgchem.5c04599

NHC coordination-chemistry

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

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

Exploring the role of mitochondrial uncoupling protein 4 in brain metabolism: implications for Alzheimer’s disease

C. Crivelli, S. Garcia-Madrona, M. Gil-Minguez +428 more · 2024 · Frontiers in Neuroscience · Frontiers · added 2026-04-20

C. Crivelli, S. Garcia-Madrona, M. Gil-Minguez, R. Lujan, A. Almeida, S. Moncada, J. P. Bolanos, C. Angebault, J. Fauconnier, S. Patergnani, J. Rieusset, A. Danese, C. A. Affortit, A. Ardalan, S. Sowlati-Hashjin, H. Oduwoye, S. O. Uwumarenogie, M. Karttunen, M. D. Smith, A. Atlante, G. Amadoro, V. Latina, D. Valenti, M. Belanger, I. Allaman, P. J. Magistretti, K. F. Bell, B. Al-Mubarak, J. H. Fowler, P. S. Baxter, K. Gupta, T. Tsujita, A. M. Bertholet, A. M. Natale, P. Bisignano, J. Suzuki, A. Fedorenko, J. Hamilton, C. Bienboire-Frosini, D. Wang, M. Marcet-Rius, D. Villanueva-Garcia, A. Gazzano, A. Dominguez-Oliva, M. Bienengraeber, K. S. Echtay, M. Klingenberg, C. Bionda, J. Portoukalian, D. Schmitt, C. Rodriguez-Lafrasse, D. Ardail, M. Bozluolcay, G. Andican, S. Firtina, G. Erkol, D. Konukoglu, R. D. Burgoyne, D. A. Butterfield, B. Halliwell, M. Cater, S. M. Holter, K. A. Chamberlain, N. Huang, Y. Xie, F. LiCausi, S. Li, Y. Li, S. L. Chan, D. Liu, G. A. Kyriazis, P. Bagsiyao, X. Ouyang, M. P. Mattson, W. Chen, J. Yang, S. Chen, H. Xiang, H. Liu, D. Lin, Z. Chen, C. Zhong, I. Cho, G. J. Hwang, J. H. Cho, H. O. Song, H. E. Ji, S. Yang, A. C. Chu, P. W. Ho, K. H. Kwok, J. W. Ho, K. H. Chan, H. F. Liu, E. H. Corder, A. M. Saunders, W. J. Strittmatter, D. E. Schmechel, P. C. Gaskell, G. W. Small, S. M. Crivelli, Z. Quadri, H. J. Vekaria, Z. Zhu, P. Tripathi, A. Elsherbini, J. Cummings, Y. Zhou, G. Lee, K. Zhong, J. Fonseca, F. Cheng, C. H. Davis, K. Y. Kim, E. A. Bushong, E. A. Mills, D. Boassa, T. Shih, S. M. de la Monte, J. R. Wands, L. E. de Vries, A. Jongejan, J. Monteiro Fortes, R. Balesar, A. J. M. Rozemuller, P. D. Moerland, G. A. Dienel, D. L. Rothman, R. Domingues, C. Pereira, M. T. Cruz, A. Silva, R. Dringen, J. M. Gutterer, J. Hirrlinger, H. H. Hoepken, T. Minich, C. Ruedig, A. Lajtha, G. E. Gibson, R. H. Du, F. F. Wu, M. Lu, X. D. Shu, J. H. Ding, G. Wu, E. Winkler, J. Fortea, J. Pegueroles, D. Alcolea, O. Belbin, O. Dols-Icardo, L. Vaque-Alcazar, P. Garcia-Nogales, K. D. Garlid, M. Jaburek, P. Jezek, D. E. Orosz, M. Modriansky, S. Vassanelli, K. N. Green, H. Khashwji, T. Estrada, F. M. LaFerla, J. Grundlingh, P. I. Dargan, M. El-Zanfaly, D. M. Wood, A. Gustavsson, N. Norton, T. Fast, L. Frolich, J. Georges, D. Holzapfel, J. N. Guzman, J. Sanchez-Padilla, D. Wokosin, J. Kondapalli, E. Ilijic, P. T. Schumacker, A. Habas, J. Hahn, X. Wang, M. Margeta, P. Hanak, K. Hayakawa, E. Esposito, Y. Terasaki, Y. Liu, C. Xing, A. Herrero-Mendez, E. Fernandez, C. Maestre, D. H. So, Z. H. Tse, H. M. Tse, D. C. Yiu, W. Y. Zhang, T. Hoang, M. Kuljanin, M. Jelokhani-Niaraki, K. A. Hogan, C. C. S. Chini, E. N. Chini, N. Hu, Y. Fu, W. F. Li, X. R. Yang, M. Cao, F. F. Li, S. G. Huang, M. O. Isei, M. Crockett, E. Chen, J. Rodwell-Bullock, T. Caroll, P. A. Girardi, M. V. Ivanova, F. R. McSorley, G. Krnac, H. T. Jacobs, D. Jiang, H. Lu, D. Jimenez-Blasco, P. Santofimia-Castano, A. Gonzalez, Y. Jing, Y. Niu, C. Liu, K. Zen, D. Li, J. M. Johnson, A. D. Peterlin, E. Balderas, E. G. Sustarsic, J. A. Maschek, M. J. Lang, S. M. Joksimovic, P. Eggan, Y. Izumi, S. L. Joksimovic, V. Tesic, R. M. Dietz, S. M. Ghodsi, J. A. Heinsbroek, J. E. Orfila, N. Busquet, B. Kaltschmidt, M. Uherek, B. Volk, P. A. Baeuerle, C. Kaltschmidt, Y. Kang, L. Chen, D. Kapogiannis, K. I. Avgerinos, B. M. Kenwood, J. L. Weaver, A. Bajwa, I. K. Poon, F. L. Byrne, B. A. Murrow, E. Klotzsch, A. Smorodchenko, L. Lofler, R. Moldzio, E. Parkinson, G. J. Schutz, N. Kyrtata, H. C. A. Emsley, O. Sparasci, L. M. Parkes, B. R. Dickie, Y. Lee, B. M. Morrison, S. Lengacher, M. H. Farah, P. N. Hoffman, S. A. Liddelow, K. A. Guttenplan, L. E. Clarke, F. C. Bennett, C. J. Bohlen, L. Schirmer, N. C. de Souza-Pinto, J. R. Slevin, R. P. Wersto, M. Zhan, J. Y. Chatton, M. Manczak, M. J. Calkins, P. H. Reddy, W. Mao, X. X. Yu, A. Zhong, W. Li, J. Brush, S. W. Sherwood, A. Montesanto, P. Crocco, M. Anfossi, N. Smirne, G. Puccio, R. Colao, S. Moriguchi, N. Shioda, Y. Yamamoto, H. Tagashira, K. Fukunaga, H. Morton, S. Kshirsagar, E. Orlov, L. E. Bunquin, N. Sawant, L. Boleng, L. Mosconi, R. D. Andrews, D. C. Matthews, T. Y. Nakamura, S. Nakao, S. Wakabayashi, K. F. Neumann, L. Rojo, L. P. Navarrete, G. Farias, P. Reyes, R. B. Maccioni, D. G. Nicholls, S. Oddo, A. Caccamo, J. D. Shepherd, M. P. Murphy, T. E. Golde, R. Kayed, D. M. A. Oliver, W. R. Pearson, L. Pellerin, A. K. Bouzier-Sore, A. Aubert, S. Serres, M. Merle, R. Costalat, H. Perreten Lambert, M. Zenger, G. Azarias, R. J. Perry, D. Zhang, X. M. Zhang, J. L. Boyer, G. I. Shulman, C. Petersen, M. D. Nielsen, E. S. Andersen, A. L. Basse, M. S. Isidor, L. K. Markussen, T. Philips, J. D. Rothstein, C. Poetschke, J. Duda, J. Benkert, E. Dragicevic, T. P. Snutch, J. Striessnig, J. A. Pradeepkiran, R. A. Rice, N. C. Berchtold, C. W. Cotman, N. Rosenberg, M. Reva, F. Binda, L. Restivo, P. Depierre, J. Puyal, J. J. Ruprecht, E. R. S. Kunji, A. S. Saab, I. D. Tzvetanova, K. A. Nave, I. D. Tzvetavona, A. Trevisiol, S. Baltan, P. Dibaj, K. Kusch, A. Serrano-Pozo, Z. Li, A. Noori, H. N. Nguyen, A. Mezlini, L. Li, M. Sheridan, B. Ogretmen, C. Simons, N. Deuter, O. Pongs, T. Schneider, A. Rupprecht, I. Sarilova, O. Ninnemann, A. U. Brauer, K. Franke, G. E. Stutzmann, I. Smith, I. Parker, R. H. Swerdlow, R. Thangavel, D. Kempuraj, S. Zaheer, S. Raikwar, M. E. Ahmed, G. P. Selvakumar, B. Vaccari-Cardoso, M. Antipina, A. G. Teschemacher, S. Kasparov, B. R. Villa, A. G. George, T. E. Shutt, P. G. Sullivan, J. M. Rho, G. C. Teskey, A. A. Willette, B. B. Bendlin, E. J. Starks, A. C. Birdsill, S. C. Johnson, B. T. Christian, S. Q. Xu, X. D. Yang, Y. W. Qian, Q. Xiao Show less

The brain’s high demand for energy necessitates tightly regulated metabolic pathways to sustain physiological activity. Glucose, the primary energy substrate, undergoes complex metabolic transformatio Show more

The brain’s high demand for energy necessitates tightly regulated metabolic pathways to sustain physiological activity. Glucose, the primary energy substrate, undergoes complex metabolic transformations, with mitochondria playing a central role in ATP production via oxidative phosphorylation. Dysregulation of this metabolic interplay is implicated in Alzheimer’s disease (AD), where compromised glucose metabolism, oxidative stress, and mitochondrial dysfunction contribute to disease progression. This review explores the intricate bioenergetic crosstalk between astrocytes and neurons, highlighting the function of mitochondrial uncoupling proteins (UCPs), particularly UCP4, as important regulators of brain metabolism and neuronal function. Predominantly expressed in the brain, UCP4 reduces the membrane potential in the inner mitochondrial membrane, thereby potentially decreasing the generation of reactive oxygen species. Furthermore, UCP4 mitigates mitochondrial calcium overload and sustains cellular ATP levels through a metabolic shift from mitochondrial respiration to glycolysis. Interestingly, the levels of the neuronal UCPs, UCP2, 4 and 5 are significantly reduced in AD brain tissue and a specific UCP4 variant has been associated to an increased risk of developing AD. Few studies modulating the expression of UCP4 in astrocytes or neurons have highlighted protective effects against neurodegeneration and aging, suggesting that pharmacological strategies aimed at activating UCPs, such as protonophoric uncouplers, hold promise for therapeutic interventions in AD and other neurodegenerative diseases. Despite significant advances, our understanding of UCPs in brain metabolism remains in its early stages, emphasizing the need for further research to unravel their biological functions in the brain and their therapeutic potential. Show less

📄 PDF DOI: 10.3389/fnins.2024.1483708

ROS amino-acid mitochondria review

Synthesis, spectral characterisation, in vitro cytotoxicity, antimicrobial, antioxidant, DFT and molecular docking studies of Ru(III) complexes derived from amide-based macrocyclic ligands

Subhash, Jyoti, Monika Gupta +2 more · 2024 · Research on Chemical Intermediates · Springer · added 2026-05-01

Subhash, Jyoti, Monika Gupta, Anita Phor, Ashu Chaudhary Show less

📄 PDF DOI: 10.1007/s11164-023-05124-1

Biometal

OXPHOS-targeting drugs in oncology: New perspectives

TA Kalyanaraman, N Daver, M Mahendra +242 more · 2023 · Expert opinion on therapeutic targets · Taylor & Francis · added 2026-04-20

TA Kalyanaraman, N Daver, M Mahendra, X Zhang, CV Dang, TM Ashton, WG McKenna, LA Kunz-Schughart, Y Xu, D Xue, A Bankhead, M Huang, CR Myers, Y Wang, B Kalyanaraman, SK Biswas, RAJ Smith, CM Porteous, AM Gane, MP Murphy, RC Hartley, E Fokas, M Benej, X Hong, S Vibhute, M Nishida, N Yamashita, T Ogawa, K Chandran, D Aggarwal, RQ Migrino, D Graham, NN Huynh, CA Hamilton, T Capeloa, J Krzystyniak, D d’Hose, JA Van de Velde, AC Rodriguez, NG Yoon, H Lee, SY Kim, S Yoshida, S Tsutsumi, G Muhlebach, A Rasola, L Neckers, D Picard, G Cheng, H Karoui, M Hardy, F Weinberg, R Hamanaka, WW Wheaton, B Fink, L Coppey, E Davidson, EM Gottwald, M Duss, M Bugarski, J Pan, Y Lee, JR Molina, Y Sun, M Protopopova, J Zielonka, M AbuEid, DM McAllister, L McOlash, IK Srivastava, H Rottenberg, AB Vaidya, PD Radloff, J Philipps, M Nkeyi, W Hughes, G Leoung, F Kramer, CD Freeman, NE Klutman, KC Lamp, A Darade, S Pathak, S Sharma, R Dixon, AL Pozniak, HM Watt, GL Nixon, DM Moss, AE Shone, M Fry, M Pudney, MW Mather, E Darrouzet, M Valkova-Valchanova, M Fiorillo, R Lamb, HB Tanowitz, M Xiang, H Kim, VT Ho, N Gupta, SK Srivastava, S Tian, H Chen, W Tan, D Xiong, P Topchyan, RM Loftus, DK Finlay, G Andrejeva, JC Rathmell, X Li, M Wenes, P Romero, T Gaber, C Strehl, F Buttgereit, A Tasdogan, JM Ubellacker, SJ Morrison, B Faubert, V Ramesh, Q Zhang, LP Burton, G Deng, CD Yanes, SR Lord, AL Harris, ME McGuinness, RL Talbert, H Zhao, KD Swanson, B Zheng, L Di Magno, S Manni, F Di Pastena, SR Veiga, X Ge, CA Mercer, R Masoud, G Reyes-Castellanos, S Lac, F Janku, SH Beom, YW Moon, O Ouari, KA Boyle, J Van Wickle, RB Hill, RF Keyes, D McAllister, Z Bielcikova, J Stursa, L Krizova, K Rohlenova, K Sachaphibulkij, KER Hollinshead, SJ Parker, VV Eapen, S Stemberkova-Hubackova, R Zobalova, M Dubisova, CA Reddy, V Somepalli, T Golakoti, S Jayakumar, RS Patwardhan, D Pal, A Mattarei, M Romio, A Managò, RK Pathak, S Marrache, DA Harn, DR Boulware, MF Pullen, AS Bangdiwala, S Crunkhorn, LD Zorova, VA Popkov, EY Plotnikov, J Joseph, A Sikora, L Dong, J Neuzil, A Solmonson, RJ DeBerardinis, V Gouirand, F Guillaumond, S Vasseur, GM Fischer, A Jalali, DA Kircher, VS LeBleu, JT O’Connell, KN Gonzalez Herrera, JH Park, S Vithayathil, S Kumar, F Sotgia, D Whitaker-Menezes, UE Martinez-Outschoorn, CR Bartman, DR Weilandt, Y Shen, YG Najjar, AV Menk, C Sander, AR Jaiswal, AJ Liu, S Pudakalakatti, MJ McManus, JL Franklin, RA Smith, B Mathieu, L Mignion, M Skwarski, DR McGowan, E Belcher, M Zielonka, B Dranka, HR Bridges, JG Fedor, JN Blaza, A Naguib, G Mathew, CR Reczek, SE Weinberg, BD Singer, EM Steinert, Z Zhao, Y Mei, Z Wang, K Vasan, M Werner, NS Chandel, EM De Francesco, B Ózsvári, S Izreig, A Gariepy, I Kaymak, D Kolb, N Kolishetti, B Surnar Show less

Introduction: Drugs targeting mitochondria are emerging as promising antitumor therapeutics in preclinical models. However, a few of these drugs have shown clinical toxicity. Developing mitochondria- Show more

Introduction: Drugs targeting mitochondria are emerging as promising antitumor therapeutics in preclinical models. However, a few of these drugs have shown clinical toxicity. Developing mitochondria-targeted modified natural compounds and US FDA-approved drugs with increased therapeutic index in cancer is discussed as an alternative strategy. Areas Covered: Triphenylphosphonium cation (TPP + )-based drugs selectively accumulate in the mitochondria of cancer cells due to their increased negative membrane potential, target the oxidative phosphorylation proteins, inhibit mitochondrial respiration, and inhibit tumor proliferation. TPP + -based drugs exert minimal toxic side effects in rodents and humans. These drugs can sensitize radiation and immunotherapies. Expert Opinion: TPP + -based drugs targeting the tumor mitochondrial electron transport chain are a new class of oxidative phosphorylation inhibitors with varying antiproliferative and antimetastatic potencies. Some of these TPP + -based agents, which are synthesized from naturally occurring molecules and FDA-approved drugs, have been tested in mice and did not show notable toxicity, including neurotoxicity, when used at doses under the maximally tolerated dose. Thus, more effort should be directed toward the clinical translation of TPP + -based OXPHOS-inhibiting drugs in cancer prevention and treatment. Show less

no PDF DOI: 10.1080/14728222.2023.2261631

anticancer mitochondria synthesis

Synthesis, structure, spectral, redox properties and anti-cancer activity of Ruthenium(II) Arene complexes with substituted Triazole Ligands

Arabinda Muley, Kalai Selvan Karumban, Parth Gupta +5 more · 2021 · Journal of Organometallic Chemistry · Elsevier · added 2026-05-01

Arabinda Muley, Kalai Selvan Karumban, Parth Gupta, Sadananda Kumbhakar, Bishnubasu Giri, Rajnikant Raut, Ashish Misra, Somnath Maji Show less

📄 PDF DOI: 10.1016/j.jorganchem.2021.122074

Biometal

Binding of platinum derivative, oxaliplatin to deoxyribonucleic acid: structural insight into antitumor action.

Bhumika Ray, Bhumika Gupta, Ranjana Mehrotra · 2019 · Journal of biomolecular structure & dynamics · Taylor & Francis · added 2026-04-20

Platinum-derived chemodrugs constitute an active class in cancer therapeutics. Besides being potent against various solid tumors, oxaliplatin has been recognized as the first platinum compound to be a Show more

Platinum-derived chemodrugs constitute an active class in cancer therapeutics. Besides being potent against various solid tumors, oxaliplatin has been recognized as the first platinum compound to be approved for the treatment of colorectal cancer. Structurally, oxaliplatin consists of a platinum metal complexed to oxalate and diaminocyclohexane (DACH) and exert its anticancer action by inhibiting DNA replication and transcription. The present study highlights the binding properties of oxaliplatin with calf thymus DNA using spectroscopic methods to comprehend its binding mechanism at molecular level to overcome associated cellular resistance and side effects. Attenuated total reflection-Fourier transform infrared (ATR-FTIR) spectroscopic outcomes confirm that oxaliplatin is a covalent binding agent and also provide sequence specificity in DNA molecule. Infrared spectral results further indicate that oxaliplatin alkylates purine nitrogenous bases majorly guanine residues (G) in the major groove via formation of either interstrand or intrastrand guanine-guanine d(GpG) and guanine-adenine d(GpA) (N7 position) crosslinks accompanied with a slight external binding to sugar-phosphate backbone. Again, circular dichroism (CD) spectroscopic results suggest subtle conformational changes in DNA molecule due to its complexation with oxaliplatin and duplex attains an intermediate conformational state, having characteristics of both B- and C-forms. Further, a moderate binding strength of 4.12 ± 0.2 × 104 M-1 for the interaction has been estimated via ultraviolet-visible spectroscopy. The inferences obtained from these investigations are encouraging and can form the basis for further exploration in the field of rational drug development based on platinum compounds possessing preferential binding for nucleic acid with improved competence. Communicated by Ramaswamy H. Sarma. Show less

no PDF DOI: 10.1080/07391102.2018.1531059

Pt anticancer carboxylate coordination-chemistry

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

JP Ježek, AGW Leslie, R Lutter, JE Walker, AE Adams, AM Carroll, PG Fallon, RK Porter, O Hanrahan, DN Nolan, HP Voorheis, P Fallon, OM Kelly, C Affourtit, MD Brand, M Jastroch, C Aguer, BD Piccolo, O Fiehn, SH Adams, ME Harper, L Alán, K Smolková, E Kronusová, J Šantorová, P Ježek, EM Allister, CA Robson-Doucette, KJ Prentice, AB Hardy, S Sultan, HY Gaisano, D Kong, P Gilon, PL Herrera, BB Lowell, MB Wheeler, R Amat, G Solanes, M Giralt, F Villarroya, ZB Andrews, ZW Liu, N Walllingford, DM Erion, E Borok, JM Friedman, MH Tschöp, M Shanabrough, G Cline, GI Shulman, A Coppola, XB Gao, TL Horvath, S Diano, MA Aon, S Cortassa, E Marbán, B O'Rourke, H Aquila, TA Link, M Klingenberg, D Arsenijevic, H Onuma, C Pecqueur, S Raimbault, BS Manning, B Miroux, E Couplan, MC Alves-Guerra, M Goubern, R Surwit, F Bouillaud, D Richard, S Collins, D Ricquier, V Ayyasamy, KM Owens, MM Desouki, P Liang, A Bakin, K Thangaraj, DJ Buchsbaum, AF LoBuglio, KK Singh, V Azzu, EP Breen, N Parker, G Baffy, Z Derdak, SC Robson, Y Bai, X Bai, AV Medvedev, M Misukonis, JB Weinberg, W Cao, J Robidoux, LM Floering, KW Daniel, KA Ball, AW Nelson, DG Foster, RO Poyton, J Barlow, V Hirschberg Jensen, CJ Barnstable, R Reddy, H Li, W Basu Ball, S Kar, M Mukherjee, AG Chande, R Mukhopadhyaya, PK Das, JM Baughman, F Perocchi, HS Girgis, M Plovanich, CA Belcher-Timme, Y Sancak, XR Bao, L Strittmatter, O Goldberger, RL Bogorad, V Koteliansky, VK Mootha, V Beck, M Jabůrek, EE Pohl, T Demina, A Rupprecht, EL Bell, TA Klimova, J Eisenbart, CT Moraes, MP Murphy, GRS Budinger, NS Chandel, MJ Berardi, JJ Chou, WM Shih, SC Harrison, M Bertolotti, G Farinelli, M Galli, A Aiuti, R Sitia, J Blanc, B Esposito, S Rousset, P Gourdy, A Tedgui, Z Mallat, L Bleier, S Dröse, M Board, C Lopez, C van den Bos, R Callaghan, K Clarke, C Carr, AI Bondarenko, W Parichatikanond, CT Madreiter, R Rost, M Waldeck-Weiermair, R Malli, WF Graier, J Borecký, D Siemen, O Boss, S Samec, A Paoloni-Giacobino, C Rossier, A Dulloo, J Seydoux, P Muzzin, JP Giacobino, S Boudina, S Sena, BT O'Neill, P Tathireddy, ME Young, ED Abel, H Theobald, X Sheng, JJ Wright, XH Xia, S Aziz, JI Johnson, H Bugger, VG Zaha, TC Esteves, J Brandi, D Cecconi, M Cordani, M Torrens-Mas, R Pacchiana, E Dalla Pozza, G Butera, M Manfredi, E Marengo, J Oliver, P Roca, I Dando, M Donadelli, MO Breckwoldt, FMJ Pfister, PM Bradley, P Marinković, PR Williams, MS Brill, B Plomer, A Schmalz, DK St Clair, R Naumann, O Griesbeck, M Schwarzländer, L Godinho, FM Bareyre, TP Dick, M Kerschensteiner, T Misgeld, W Pilgrim, KJ Clarke, C Yssel, M Farrell, J Zhou, PV Murphy, PS Brookes, JA Buckingham, A Vidal-Puig, AP Halestrap, TE Gunter, DG Nicholls, P Bernardi, JJ Lemasters, A Bugge, M Siersbæk, MS Madsen, A Göndör, C Rougier, S Mandrup, C Guzman, C Zechner, M Palmeri, KS Russell, RR Russell, JA Cabrera, EA Ziemba, R Colbert, RF Kelly, M Kuskowski, EA Arriaga, W Sluiter, DJ Duncker, HB Ward, EO McFalls, V Calegari, CC Zoppi, L Rezende, L Silveira, E Carneiro, AC Boschero, B Cannon, IG Shabalina, TV Kramarova, N Petrovic, J Nedergaard, A Caron, SM Labbé, S Carter, MC Roy, R Lecomte, F Picard, LR Haines, TW Pearson, CM Walsh, CM Brennan, E Casanova, L Baselga-Escudero, A Ribas-Latre, A Arola-Arnal, C Bladé, L Arola, MJ Salvadó, HZ Chae, H Oubrahim, JW Park, SG Rhee, PB Chock, CB Chan, SL Chan, D Liu, GA Kyriazis, P Bagsiyao, X Ouyang, MP Mattson, L Chaudhuri, RK Srivastava, F Kos, PA Shrikant, M Che, R Wang, X Li, HY Wang, XFS Zheng, C Chen, K Wang, J Chen, J Guo, Y Yin, X Cai, X Guo, G Wang, R Yang, L Zhu, Y Zhang, J Wang, Y Xiang, C Weng, K Zen, J Zhang, CY Zhang, Y Chen, J Liu, Y Zheng, Z Wang, S Gu, J Tan, Q Jing, H Yang, J Cheng, G Nanayakkara, Y Shao, R Cueto, L Wang, WY Yang, Y Tian, H Wang, X Yang, N Cheurfa, D Dubois-Laforgue, DAF Ferrarezi, AF Reis, GM Brenner, C Bouche, C Le Feuvre, F Fumeron, J Timsit, M Marre, G Velho, SY Cho, D Seo, WG Kim, S Lee, YS Cho, JH Lee, KH Jung, SH Moon, YS Choe, KH Lee, ET Chouchani, L Kazak, MP Jedrychowski, GZ Lu, BK Erickson, J Szpyt, KA Pierce, D Laznik-Bogoslavski, R Vetrivelan, CB Clish, AJ Robinson, SP Gygi, BM Spiegelman, C Methner, G Buonincontri, CH Hu, A Logan, SJ Sawiak, T Krieg, VR Pell, E Gaude, D Aksentijević, SY Sundier, EL Robb, SM Nadtochiy, ENJ Ord, AC Smith, F Eyassu, R Shirley, C-H Hu, AJ Dare, AM James, S Rogatti, RC Hartley, S Eaton, ASH Costa, SM Davidson, MR Duchen, K Saeb-Parsy, MJ Shattock, LM Work, C Frezza, YC Chuang, TK Lin, HY Huang, WN Chang, CW Liou, SD Chen, AY Chang, SH Chan, L Contreras, E Rial, S Cerdan, J Satrustegui, E Paradis, A Corcoran, TG Cotter, D Cosentino-Gomes, N Rocco-Machado, JR Meyer-Fernandes, LF Costa Rosa, R Curi, C Murphy, P Newsholme, MDM Gonzalez-Barroso, PG Crichton, Y Lee, ERS Kunji, MD Cruz, S Ledbetter, S Chowdhury, AK Tiwari, N Momi, RK Wali, C Bliss, C Huang, D Lichtenstein, S Bhattacharya, A Varma-Wilson, V Backman, HK Roy, M D'Adamo, L Perego, M Cardellini, MA Marini, S Frontoni, F Andreozzi, A Sciacqua, D Lauro, P Sbraccia, M Federici, M Paganelli, AE Pontiroli, R Lauro, F Perticone, F Folli, G Sesti, A Daiber, F Di Lisa, M Oelze, S Kröller-Schön, S Steven, E Schulz, T Münzel, LT Dalgaard, G Andersen, LH Larsen, TIA Sørensen, T Andersen, T Drivsholm, K Borch-Johnsen, J Fleckner, T Hansen, N Din, O Pedersen, C Fiorini, ED Pozza, C Padroni, C Costanzo, M Palmieri, S Dato, F De Rango, P Crocco, G Passarino, G Rose, PBM De Andrade, M Casimir, P Maechler, P De Lange, A Feola, M Ragni, R Senese, M Moreno, A Lombardi, E Silvestri, F Goglia, A Lanni, U De Marchi, C Castelbou, N Demaurex, R De Simone, MA Ajmone-Cat, M Pandolfi, A Bernardo, C De Nuccio, L Minghetti, S Visentin, D De Stefani, A Raffaello, E Teardo, I Szabò, R Rizzuto, T Pozzan, G Den Besten, A Bleeker, A Gerding, K Van Eunen, R Havinga, TH Van Dijk, MH Oosterveer, JW Jonker, AK Groen, DJ Reijngoud, BM Bakker, Z Derdák, P Fülöp, E Sabo, R Tavares, EP Berthiaume, MB Resnick, G Paragh, JR Wands, NM Mark, G Beldi, SS Dhamrait, JW 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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