👤 Yuquan Wei

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31
Articles
43
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Also published as: Bo Wei, C Wei, C. Wei, Chen, Wei, Chih-Hsuan Wei, D Wei, DG Wei, F. Wei, G. Wei, G.-Y. Wei, Galen Wei, Gaofei Wei, HX Wei, Haoche Wei, J Wei, Jianhua Wei, Junjie Wei, K Wei, L. Wei, Lai Wei, Lei Wei, Li Wei, Li, Wei, Peng Wei, Qichun Wei, Qing-Min Wei, R. Wei, S Wei, Siqi Wei, T. Wei, Tao Wei, W Wei, W.Z. Wei, X Wei, X. Wei, Xiaoli Wei, Xiaoyan Wei, Y Wei, Y. Wei, YH Wei, Yanli Wei, Z Wei
articles

Dihydroorotate dehydrogenase inhibition activates STING pathway and pyroptosis to enhance NK cell-dependent tumor immunotherapy

Yongrui Hai, Ruizhuo Lin, Weike Liao +8 more · 2025 · Molecular Biomedicine · BioMed Central · added 2026-04-20
Abstract Cancer cells rely heavily on de novo pyrimidine synthesis. Inhibiting pyrimidine metabolism directly suppresses tumor growth and fosters immune activation within the tumor microenvironment. D Show more
Abstract Cancer cells rely heavily on de novo pyrimidine synthesis. Inhibiting pyrimidine metabolism directly suppresses tumor growth and fosters immune activation within the tumor microenvironment. Dihydroorotate dehydrogenase (DHODH) is a key enzyme in the de novo pyrimidine synthesis pathway. Inhibiting DHODH can reverse immune suppression and trigger a mild innate immune response. However, the impact of DHODH inhibition on natural killer (NK) cells remains to be explored. In this study, we found that DHODH inhibition promoted NK cell infiltration into tumors efficiently. Mechanistically, DHODH suppression induced mitochondrial oxidative stress, leading to mitochondrial DNA (mtDNA) release into the cytoplasm through voltage-dependent anion channel (VDAC) oligomerization and caspase-3 activation. This subsequently activated the stimulator of interferon gene (STING) pathway, triggered ferroptosis, and induced gasdermin E (GSDME) mediated pyroptosis in cancer cells. These changes collectively facilitated NK cell recruitment. Furthermore, infiltrated NK cells enhanced GSDME-dependent pyroptosis in tumor cells through granzyme release, establishing a positive feedback loop that amplified anti-tumor immunity. Additionally, we developed EA6, a novel DHODH inhibitor that is more effective at promoting NK cell infiltration. In summary, this study reveals that targeting pyrimidine metabolism activates a novel mechanism involving pyroptosis-ferroptosis crosstalk and STING pathway activation to enhance NK cell-mediated immunity. These finding opens new avenues for enhancing the efficacy of targeted nucleotide metabolism in cancer therapy. Show less
📄 PDF DOI: 10.1186/s43556-025-00339-7
Fe ROS mitochondria synthesis

Nucleophosmin 1 inhibits the replication of influenza A virus by competitively binding viral RNA with viral proteins.

Yingying Yu, Qian Wang, Yanli Wei +9 more · 2025 · Virologica Sinica · Elsevier · added 2026-04-20
Influenza A viruses (IAVs) are single-stranded negative-sense RNA viruses that continually challenge animal and human health. In IAV-infected cells, host RNA-binding proteins play key roles in the lif Show more
Influenza A viruses (IAVs) are single-stranded negative-sense RNA viruses that continually challenge animal and human health. In IAV-infected cells, host RNA-binding proteins play key roles in the life cycle of IAV by directly binding to viral RNA. Here, we examined the role of the host RNA-binding protein nucleophosmin-1 (NPM1) in IAV replication. We found that, as a nucleolar phosphoprotein, NPM1 directly binds to viral RNA (vRNA) and inhibits the replication of various subtypes of IAV. NPM1 binding to vRNA competitively reduces the assembly of the viral ribonucleoprotein complex and the viral polymerase activity, thereby reducing the generation of progeny viral RNA and virions. The RNA-binding activity of NPM1, with the key residues T199, T219, T234, and T237, is essential for its anti-influenza function. Taken together, our findings demonstrate that NPM1 acts as an RNA-binding protein and interacts with IAV vRNA to suppress viral replication. Show less
no PDF DOI: 10.1016/j.virs.2025.04.007
amino-acid

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

A novel mitochondria-targeting DHODH inhibitor induces robust ferroptosis and alleviates immune suppression.

Yongrui Hai, Renming Fan, Ting Zhao +6 more · 2024 · Pharmacological research · Elsevier · added 2026-04-20
Dihydroorotate dehydrogenase (DHODH)-mediated ferroptosis defense is a targetable vulnerability in cancer. Currently, only a few DHODH inhibitors have been utilized in clinical practice. To further en Show more
Dihydroorotate dehydrogenase (DHODH)-mediated ferroptosis defense is a targetable vulnerability in cancer. Currently, only a few DHODH inhibitors have been utilized in clinical practice. To further enhance DHODH targeting, we introduced the mitochondrial targeting group triphenylphosphine (TPP) to brequinar (BRQ), a robust DHODH inhibitor, resulting in the creation of active molecule B2. This compound exhibits heightened anticancer activity, effectively inhibiting proliferation in various cancer cells, and restraining tumor growth in melanoma xenografts in mice. B2 achieves these effects by targeting DHODH, triggering the formation of reactive oxygen species (ROS), promoting mitochondrial lipid peroxidation, and inducing ferroptosis in B16F10 and A375 cells. Surprisingly, B2 significantly downregulates PD-L1 and alleviates immune suppression. Importantly, B2 exhibits no apparent adverse effects in mice. Collectively, these findings highlight that enhancing the mitochondrial targeting capability of the DHODH inhibitor is a promising therapeutic approach for melanoma treatment. Show less
no PDF DOI: 10.1016/j.phrs.2024.107115
Fe Pd ROS anticancer mitochondria

Towards advanced N-rich energetic explosives: based on tetrazole and triazole groups with large conjugated systems and extensive hydrogen bonds

Guofeng Zhang, Xue Hao, Yongbin Zou +4 more · 2024 · Journal of Materials Chemistry A · Royal Society of Chemistry · added 2026-04-20
Developing a new generation of increased energy, stability, and easily applicable N-rich energetic materials to replace RDX and HMX has posed significant challenges over the past decade. This Show more
Developing a new generation of increased energy, stability, and easily applicable N-rich energetic materials to replace RDX and HMX has posed significant challenges over the past decade. This work presents the design and synthesis of a series of novel N-rich energetic materials (N1 to N3 series) based on the triazole–tetrazole system. Among these, the N3 series demonstrates exceptional detonation performance and stability. It is noteworthy that the N3-3 molecule has achieved the best overall performance among N-rich energetic materials, with an onset decomposition temperature of 302 °C and a detonation velocity of 9341 m s−1, which significantly surpasses that of HMX. Additionally, structural studies of the N1 molecule reveal that the positioning effect of the nitro group and steric hindrance within the molecule disrupt the planar characteristics of the triazole–tetrazole system. In contrast, the amino group in the N3 series enhances molecular planarity, facilitating the formation of large conjugated systems and extensive hydrogen bond networks in N-rich energetic materials. This approach effectively enhances the stability of energetic material molecules and offers valuable insights for the development and design of stable N-rich energetic compounds. Show less
📄 PDF DOI: 10.1039/D4TA06447J
synthesis tetrazole

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

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
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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

Metal-Based Drug–DNA Interactions and Analytical Determination Methods

S. Hangan, J. Lodge, A. Odani +529 more · 2024 · Molecules · MDPI · added 2026-04-20
S. Hangan, J. Lodge, A. Odani, T. Yamaguchi, I. Persson, N. Hadjiliadis, E. Sletten, S.A. Mehrdad, A. Cucchiarini, J.L. Mergny, S.K. Noureini, S. Muthaiah, A. Bhatia, M. Kannan, A.N. Srivastva, M. Stankovic, J. Kljun, N.L.J. Stevanovic, J. Lazic, S.S. Bogojevic, S. Vojnovic, M. Zlatar, J. Nikodinovic-Runic, I. Turel, M.I. Djuran, I. Aleksic, A. Veselinovic, B.D. Glisic, H. Alshater, A.I. Al-Sulami, S.A. Aly, E.M. Abdalla, M.A. Sakr, S.S. Hassan, S. de la Mata Moratilla, S. Casado Angulo, N. Gómez-Casanova, J.L. Copa-Patiño, I. Heredero-Bermejo, F.J. de la Mata, S. García-Gallego, A. Hangan, A. Turza, R.L. Lucaciu, B. Sevastre, E. Pall, L.S. Oprean, G. Borodi, D. Rusu, A. Stănilă, I.O. Marian, C.O. Marian, M. Rusu, R. Lucaciu, T.J. Hubin, P.N. Amoyaw, K.D. Roewe, N.C. Simpson, R.D. Maples, T.N. Carder Freeman, A.N. Cain, J.G. Le, S.J. Archibald, S.I. Khan, E. Bortolamiol, F. Visentin, T. Scattolin, I. Kostova, A.C. Hangan, L. Dican, E. Páll, R.L. Stan, S. Gheorghe-Cetean, A. Tsoupras, S. Pafli, C. Stylianoudakis, K. Ladomenou, C.A. Demopoulos, A. Philippopoulos, J. Wlodarczyk, J. Krajewska, L. Szeleszczuk, P. Szalwinska, A. Gurba, S. Lipiec, P. Taciak, R. Szczepaniak, I. Mlynarzuk-Bialy, J. Fichna, C. Abate, F. Carnamucio, O. Giuffre, C. Foti, C. Chuong, C.M. DuChane, E.M. Webb, P. Rai, J.M. Marano, C.M. Bernier, J.S. Merola, J. Weger-Lucarelli, L. Oprean, P. Kumar, S. Gorai, M.K. Santra, B. Mondal, D. Manna, M. Sirajuddin, S. Ali, A. Badshah, J.D. Watson, F.H.C. Crick, B. Maddox, P.J. Kennelly, K.M. Botham, O. McGuinness, V.W. Rodwell, P.A. Weil, R.A. Harvey, D.R. Ferrier, J.M. Berg, J.L. Tymoczko, G.J. Gatto, L. Stryer, J.A. Cowan, P. Yakovchuk, E. Protozanova, M.D. Frank-Kamenetskii, M.J. Hannon, I. Bertini, H.B. Gray, S.J. Lippard, J.S. Valentine, Z. Shakked, G. Guerstein-Guzikevich, M. Eisenstein, F. Frolow, D. Rabinovich, J.C. Garcia-Ramos, R. Galindo-Murillo, F. Cortez-Guzman, L. Ruiz-Azuara, S. Neidle, M. Hägerlöf, P. Papsai, C.S. Chow, S.K.C. Elmroth, J. François, N.T. Thuong, C. Hélène, J.L. Huppert, T.A. Brooks, S. Kendrick, L. Hurley, X. Li, Y. Peng, J. Ren, X. Qu, Y. Akiyama, S.M. Hecht, L.H. Hurley, J. Zhou, C. Wei, G. Jia, X. Wang, Z. Feng, C. Li, A. Mukherjee, K.M. Vasquez, E. Marian, L.G. Vicas, J. Tunde, M. Muresan, Z. Diaconeasa, C. Ionescu, R.G. Pearson, G. Barone, A. Terenzi, A. Lauria, A.M. Almerico, J.M. Leal, N. Busto, B. Garcia, J. Vinje, J.A. Parkinson, P.J. Sadler, T. Brown, A.A. Almaqwashi, T. Paramanathan, I. Rouzina, M.C. Williams, F.R. Keene, J.A. Smith, J.G. Collins, A. Rilak, R. Masnikosa, I. Bratsos, E. Alessio, S.K. Srivastava, T.C. Johnstone, K. Suntharalingam, S. Cetean, T. Ciuleanu, D.C. Leucuta, C. Cainap, A.M. Constantin, I. Cazacu, S. Cainap, A. Gherman, Y. He, Y. Ding, D. Wang, W. Zhang, W. Chen, X. Liu, W. Qin, X. Qian, H. Chen, Z. Guo, E. Stefàno, F. De Castro, A. Ciccarese, A. Muscella, S. Marsigliante, M. Benedetti, F.P. Fanizzi, P.M. Takahara, A.C. Rosenzweig, C.A. Frederick, M. Demeunynck, C. Bailly, W.D. Wilson, K. Nakamoto, M. Tsuboi, G.D. Strahan, B.M. Zeglis, V.C. Pierre, J.K. Barton, C. Shobha Devi, B. Thulasiram, R.R. Aerva, P. Nagababu, T. Biver, F. Secco, M. Venturini, C.E. Maciel-Flores, J.A. Lozano-Alvarez, E.Y. Bivián-Castro, F. Jia, S. Wang, Y. Man, B. Liu, P. Modrich, A. Erxleben, E. Dumont, A. Monari, D.L. Morris, G.S. Khan, A. Shah, D. Zia-ur-Rehman, B.J. Pages, D.L. Ang, E.P. Wright, J.R. Aldrich-Wright, S.M. Nelson, L.R. Ferguson, W.A. Denny, L. Winkler, F. Cortes-Guzman, T.E. Cheatham, O. Sarpataki, N.K. Olah, M. Taulescu, I. Marcus, C. Cătoi, M.M. González-Ballesteros, L. Sánchez-Sánchez, A. Espinoza-Guillén, J. Espinal-Enríquez, C. Mejía, E. Hernández-Lemus, P.H. von Hippel, A.H. Marcus, S. Komeda, T. Moulaei, K. Kruger Woods, M. Chikuma, N.P. Farrell, L.D. Williams, T. Jany, A. Moreth, C. Gruschka, A. Sischka, A. Spiering, M. Dieding, Y. Wang, S. Haji Samo, A. Stammler, H. Bögge, S. Li, B. Yuan, J. Zhang, L. Yue, H. Hou, J. Hu, S. Chen, B.R. Kirthan, M.C. Prabhakara, H.S. Bhojya Naik, P.H.A. Nayak, E.I. Naik, U. Saha, S. Chatterjee, M. Dolai, G.S. Kumar, A.M. Abu-Dief, N.H. Alotaibi, E.S. Al-Farraj, H.A. Qasem, S. Alzahrani, M.K. Mahfouz, A. Abdou, B. Kurt, H. Temel, M. Atlan, S. Kaya, H.A. Kiwaan, A.S. El-Mowafy, A.A. El-Bindary, S. Baskaran, M.N. Krishnan, M. Arumugham, R. Kumar, N. Kumar, R. Kaushal, P. Awasthi, A. Kellett, Z. Molphy, C. Slator, V. McKee, V.G. Vaidyanathan, B.U. Nair, R. Vijayalakshmi, P. Karacan, O. Okay, S. Phukan, S. Mitra, S. Nafisi, A.A. Saboury, N. Keramat, J.F. Neault, H.A. Tajmir-Riahi, P. Sathyadevi, P. Krishnamoorthy, R.R. Butorac, A.H. Cowley, N.S.P. Bhuvanesh, N. Dharmaraj, F. Arjmand, S. Parveen, M. Afzal, M. Shahid, J.B. Lepecq, C. Paoletti, J.L. Garcia-Gimenez, M. Gonzalez-Alvarez, M. Liu-Gonzalez, B. Macias, J. Borras, G. Alzuet, M. Aslanoglu, M. Zaheer, R. Qureshi, Z. Akhter, M.F. Nazar, M. Ngoepe, H. Clayton, P. Mucha, P. Hikisz, K. Gwoździński, U. Krajewska, A. Leniart, E. Budzisz, E.F. Garman, J.R. Helliwell, E.P. Mitchell, A.N. Boynton, K.M. Boyle, M.J. Waring, S. Da Vela, D.I. Svergun, L.A. Feigin, P.P.P. Kumar, D.K. Lim, T.H. Jensen, M. Bech, O. Bunk, M. Thomsen, A. Menzel, A. Bouchet, G. Le Duc, R. Feidenhans, F. Pfeiffer, S. Sidhu, G. Falzon, S.A. Hart, J.G. Fox, R.A. Lewis, K.K.W. Siu, D.A. Jacques, J. Trewhella, N. Allec, M. Choi, N. Yesupriya, B. Szychowski, M.R. White, M.G. Kann, E.D. Garcin, M.C. Daniel, A. Badano, Y. Qu, J.B. Mangrum, A. Hegmans, S.J. Berners-Price, L. Ronconi, X. Filip, C. Tripon, C. Morari, C. Filip, T. Urathamakul, D.J. Waller, J.L. Beck, S.F. Ralph, X. Fan, J. Wang, X. Zhang, Z. Yang, J.C. Zhang, L. Zhao, H. Peng, J. Lei, H.W. Wang, J.L. Rubinstein, X. Benjin, L. Ling, A. Punjani, D.J. Fleet, M.A. Brubaker, A. Goldstein, Y. Soroka, M. Frušic-Zlotkin, I. Popov, R. Kohen, M. Havrdova, K. Polakova, J. Skopalik, M. Vujtek, A. Mokdad, M. Homolkova, J. Tucek, J. Nebesarova, R. Zboril, M. Malatesta, M.R. Rodríguez, M.J. Lavecchia, B.Z. Parajón-Costa, A.C. González-Baró, M.R. González-Baró, E. Cattáneo, A.N. Alaghaz, S. Aldulmani, A. Yadav, K. Poonia, R. Ștefan, K.R. Fox, M.V. Villa, R. Lapresa, J. Hernandez-Gil, F. Sanz, J.B. Chaires, M. Mudasir, E.T. Wahyuni, D.H. Tjahjono, N. Yoshioka, H. Inoue, P. Jaividhya, R. Dhivya, M.A. Akbarsha, M. Palaniandavar, N. Raman, R. Jeyamurugan, A. Sakthivel, L. Mitu, A. Prisecaru, R.G. Kipping, E.J. Peterson, J.L. García-Giménez, J. Hernández-Gil, A. Martínez-Ruíz, A. Castiñeiras, M. Liu-Gonzáles, F.V. Pallardó, J. Borrás, G. Alzuet Piña, M. Swathi, D.S. Shankar, S. Daravath, N. Ganji, P.V.A. Lakshmi, R. Shivaraj, A. Pérez, F.J. Luque, M. Orozco, N.M. Henriksen, D.R. Davis, D.A. Case, T.E.I. Cheatham, T. Darden, H. Gohlke, R. Luo, K.M. Merz, A. Onufriev, C. Simmerling, B. Wang, R.J. Woods, M.B. Peters, Y. Yang, L. Füsti-Molnár, M.N. Weaver, M. Sahadevan, M. Sundaram, K. Subramanian Show less
DNA structure has many potential places where endogenous compounds and xenobiotics can bind. Therefore, xenobiotics bind along the sites of the nucleic acid with the aim of changing its structure, its Show more
DNA structure has many potential places where endogenous compounds and xenobiotics can bind. Therefore, xenobiotics bind along the sites of the nucleic acid with the aim of changing its structure, its genetic message, and, implicitly, its functions. Currently, there are several mechanisms known to be involved in DNA binding. These mechanisms are covalent and non-covalent interactions. The covalent interaction or metal base coordination is an irreversible binding and it is represented by an intra-/interstrand cross-link. The non-covalent interaction is generally a reversible binding and it is represented by intercalation between DNA base pairs, insertion, major and/or minor groove binding, and electrostatic interactions with the sugar phosphate DNA backbone. In the present review, we focus on the types of DNA–metal complex interactions (including some representative examples) and on presenting the methods currently used to study them. Show less
📄 PDF DOI: 10.3390/molecules29184361
DNA-binding coordination-chemistry review

Glycolysis regulates KRAS plasma membrane localization and function through defined glycosphingolipids - Nature Communications

Liu, Junchen, van der Hoeven, Ransome, Kattan, Walaa E. +7 more · 2023 · Nature Publishing Group · Nature · added 2026-04-20
KRAS is a small GTPase that regulates cell proliferation. Here, the authors show that a subset of cell surface glycosphingolipids regulate KRAS plasma membrane localization by modulating inner leaflet Show more
KRAS is a small GTPase that regulates cell proliferation. Here, the authors show that a subset of cell surface glycosphingolipids regulate KRAS plasma membrane localization by modulating inner leaflet lipid composition, uncovering a requirement for KRAS oncogenesis that may have therapeutic potential. Show less
📄 PDF DOI: 10.1038/s41467-023-36128-5
cancer cell biology cell surface glycosphingolipids kras localization modulation oncogenesis

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 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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

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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Khandanpour, D.A. Harki, J. Rousseau, V. Gagne, M. Labuda, C. Beaubois, D. Sinnett, C. Laverdiere, A. Moghrabi, S.E. Sallan, L.B. Silverman, D. Neuberg, Y.H. Youssef, S.M. Makkeyah, A.F. Soliman, N.H. Meky, M. Kurata, I. Onishi, T. Takahara, Y. Yamazaki, S. Ishibashi, R. Goitsuka, D. Kitamura, J. Takita, Y. Hayashi, D.A. Largaesapda, E. Duprez, A.K. Mittal, G.V. Hegde, P. Aoun, R.G. Bociek, B.J. Dave, A.D. Joshi, W.G. Sanger, D.D. Weisenburger, S.S. Joshi, R. Pal, M. Janz, D.L. Galson, M. Gries, K. Johrens, I. Anagnostopoulos, B. Dorken, M.Y. Mapara, L. Borghesi, R. Piva, E. Pellegrino, M. Mattioli, L. Agnelli, L. Lombardi, F. Boccalatte, G. Costa, B.A. Ruggeri, M. Cheng, R. Chiarle, B. Bisikirska, M. Bansal, J. Teruya-Feldstein, R. Chaganti, A. Califano, J.H. White, R.A. McIllhinney, A. Wise, F. Ciruela, W.Y. Chan, P.C. Emson, A. Billinton, F.H. Marshall, X. Jiang, L. Su, Q. Zhang, C. He, P. Yi, Q. Shu, Y. Tan, J.A. Morris, G. Kandpal, L. Ma, C.P. Austin, C. Kakiuchi, M. Ishiwata, S. Nanko, H. Kunugi, Y. Minabe, K. Nakamura, N. Mori, K. Fujii, K. Yamada, T. Yoshikawa, X. Gao, Y. Mi, N. Guo, Z. Hu, F. Hu, L. Gao, W. Jin, B. Madarampalli, K. Lengel, Y. Xu, G. Li, Z. Lu, C.J. Fiorese, A.M. Schulz, Y.F. Lin, N. Rosin, M.W. Pellegrino, T. Dohi, C.M. Raskett, G.M. Orlowski, C.M. Powers, C.A. Gilbert, J. Plescia, D.C. Altieri, R. Keerthiga, D.S. Pei, A. Fu, Y. Zhao, Y.D. Zhang, S.W. Qian, Z.C. Zhang, S.F. Li, L. Guo, Y. Liu, B. Wen, Q.Y. Lei, A. Khramushin, Z. Ben-Aharon, T. Tsaban, J.K. Varga, O. Avraham, O. Schueler-Furman, N. Pasquier, T.T.T. Nguyen, E. Darvishi, L. Ghamsari, S.F. Leong, R. Ramirez, M. Koester, E. Gallagher, M. Yu, J.M. Mason, G. Merutka, B.J. Kappel, D. Dluzen, D. Tacelosky, M. Moreau, S.P. Wheatley, S.N. Brun, S.L. Markant, L.A. Esparza, G. Garcia, D. Terry, J.M. Huang, X.N. Li, G.A. Grant, J.R. Crawford, R. Frazzi, X. Tong, P. Yang, K. Wang, X. Shan, K. Zhang, D. Merino, D.A. Putavet, P.L.J. de Keizer, L. Bousset, J. Gil, J. Salotti, K. Sakchaisri, W.G. Tourtellotte, L.M. Podust, A.M. Krezel, Y. Kim, H. Tominaga, S. Maeda, M. Hayashi, S. Takeda, S. Komiya, T. Nakamura, H. Akiyama, T. Imamura, I.K. Mann, R. Chatterjee, J. Zhao, M.T. Weirauch, T.R. Hughes, S.M. Ebert, S.A. Bullard, N. Basisty, G.R. Marcotte, Z.P. Skopec, J.M. Dierdorff, A. Al-Zougbi, K.C. Tomcheck, A.D. DeLau, J.A. Rathmacher, I.M.N. Wortel, L.T. van der Meer, M.S. Kilberg, F.N. van Leeuwen, S. Moeckel, K. LaFrance, J. Wetsch, C. Seliger, M.J. Riemenschneider, M. Proescholdt, P. Hau, A. Vollmann-Zwerenz, N.I. Lorenz, A.C.M. Sittig, H. Urban, A.L. Luger, A.L. Engel, C. Munch, J.P. Steinbach, M.W. Ronellenfitsch, C. Chen, P. Liu, S. Fang, Y. You, S. Kaspar, C. Oertlin, K. Szczepanowska, A. Kukat, K. Senft, C. Lucas, S. Brodesser, M. Hatzoglou, O. Larsson, I. Topisirovic, S.E. Parkin, M. Baer, T.D. Copeland, R.C. Schwartz, C.J. Huggins, R. Malik, S. Thomas, N. Martin, O.A. Quinones, W.G. Alvord, M.E. Olanich, J.R. Keller, Z. Renfro, B.E. White, K.E. 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

Perturbing tumor cell metabolism with a Ru(II) photo-redox catalyst to reverse the multidrug resistance of lung cancer

Siqi Wei, Hui Liang, Anyi Dao +10 more · 2023 · Science China Chemistry · Springer · added 2026-05-01
📄 PDF DOI: 10.1007/s11426-022-1496-0
Biometal

Antitumor activity of iridium/ruthenium complexes containing Nitro -substituted quinoline ligands in vivo and in vitro

Xiangdong He, Jun Chen, Lai Wei +3 more · 2023 · Dyes and Pigments · Elsevier · added 2026-05-01
📄 PDF DOI: 10.1016/j.dyepig.2023.111146
Biometal

Biotin-modified cyclometalated iridium-based photosensitizers as mitochondria-targeted theranostic agents for tumor photodynamic therapy in vitro and in vivo

Lai Wei, Xiangdong He, Xinyue Shang +3 more · 2023 · Dyes and Pigments · Elsevier · added 2026-05-01
no PDF DOI: 10.1016/j.dyepig.2023.111641
Biometal

An endoplasmic reticulum-targeting iridium(iii) complex induces immunogenic cell death in melanoma cells and enhances anti-PD-1 immunotherapy by remodeling tumor microenvironment

Yi Rong, Zhongxian Fan, Zhijie Yu +6 more · 2023 · Inorganic Chemistry Frontiers · Royal Society of Chemistry · added 2026-05-01
no PDF DOI: 10.1039/d3qi00841j
Biometal

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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Root, B. Wong, T. R. Golub, J. M. Raser, E. K. O’Shea, A. A. Kalaitzis, N. D. Lawrence, D. P. Nusinow, J. Szpyt, M. Ghandi, C. M. Rose, E. R. McDonald, M. Kalocsay, J. Jané-Valbuena, E. Gelfand, D. K. Schweppe, M. Jedrychowski, J. Golji, D. A. Porter, T. Rejtar, Y. K. Wang, G. V. Kryukov, F. Stegmeier, B. K. Erickson, L. A. Garraway, W. R. Sellers, S. P. Gygi, M.-A. Bray, S. Singh, H. Han, C. T. Davis, B. Borgeson, C. Hartland, M. Kost-Alimova, S. M. Gustafsdottir, C. C. Gibson, A. E. Carpenter, A. X. Lu, O. Z. Kraus, S. Cooper, A. M. Moses, S. N. Chandrasekaran, H. Ceulemans, J. D. Boyd, M. J. Cox, S. Jaensch, J. Van de Waeter, L. Cougnaud, D. Seynaeve, S. Benalla, S. J. Koo, I. Van Den Wyngaert, J.-M. Neefs, D. Malkov, M. Bittremieux, M. Steemans, P. J. Peeters, J. K. Wegner, E. Gustin, Y. T. Chong, H. W. H. Göhlmann, I. Nassiri, M. N. McCall, P. D. Piehowski, V. A. Petyuk, D. J. Orton, F. Xie, M. Ramirez-Restrepo, A. Engel, A. P. Lieberman, R. L. Albin, D. G. Camp, R. D. Smith, A. 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B. Ziraldo, T. D. Wheeler, G. P. McDermott, J. Zhu, M. T. Gregory, J. Shuga, L. Montesclaros, J. G. Underwood, D. A. Masquelier, S. Y. Nishimura, M. Schnall-Levin, P. W. Wyatt, C. M. Hindson, R. Bharadwaj, A. Wong, K. D. Ness, L. W. Beppu, H. J. Deeg, C. McFarland, K. R. Loeb, W. J. Valente, N. G. Ericson, E. A. Stevens, J. P. Radich, T. S. Mikkelsen, B. J. Hindson, J. H. Bielas, N. J. Schurch, P. Schofield, M. Gierliński, C. Cole, A. Sherstnev, V. Singh, N. Wrobel, K. Gharbi, G. G. Simpson, T. Owen-Hughes, M. Blaxter, G. J. Barton, A. Koussounadis, S. P. Langdon, I. H. Um, D. J. Harrison, V. A. Smith, X. Xie, E. D. Crawford, D. Peck, J. W. Modell, I. C. Blat, M. J. Wrobel, J. Lerner, J.-P. Brunet, K. N. Ross, M. Reich, H. Hieronymus, G. Wei, S. A. Armstrong, R. Wei, E. S. Lander, R. Edgar, M. Domrachev, A. E. Lash, H. Parkinson, M. Kapushesky, M. Shojatalab, N. Abeygunawardena, R. Coulson, A. Farne, E. Holloway, N. Kolesnykov, P. Lilja, M. Lukk, R. Mani, T. Rayner, A. Sharma, E. 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Lachmann, A. Ma’ayan, X. P. Peng, C. Clement, A. Rodina, M. Nieto, J. Du, K. Stegmaier, S. M. Raj, K. N. Maloney, J. Clardy, W. C. Hahn, G. Chiosis, I. Barrett, P. Shannon, T. Sandmann, S. K. Kummerfeld, R. Gentleman, R. Bourgon, M. A. García-Campos, J. Espinal-Enríquez, E. Hernández-Lemus, A. Yuryev, S. Ekins, R. Mathur, D. Rotroff, A. Motsinger-Reif, M. Sirota, A. J. Butte, B. Debrabant, M. E. Ritchie, B. Phipson, D. Wu, C. W. Law, G. K. Smyth, E. Lim, F. Vaillant, M.-L. Asselin-Labat, J. E. Visvader, P. D. Thomas, M. J. Campbell, A. Kejariwal, H. Mi, B. Karlak, R. Daverman, K. Diemer, A. Muruganujan, A. Narechania, E. Y. Chen, C. M. Tan, Y. Kou, Q. Duan, G. V. Meirelles, N. R. Clark, G. Dennis, B. T. Sherman, D. A. Hosack, W. Gao, H. C. Lane, R. A. Lempicki, A. Markiel, O. Ozier, N. S. Baliga, J. T. Wang, D. Ramage, N. Amin, B. Schwikowski, G. Bindea, B. Mlecnik, H. Hackl, P. Charoentong, M. Tosolini, A. Kirilovsky, W.-H. Fridman, F. Pagès, Z. Trajanoski, J. Galon, G. Yu, Q.-Y. He, L.-G. Wang, Y. Han, I. Ihnatova, E. Budinska, F. Li, Y. Qin, X. Bo, Y. Wu, S. Wang, G. Bradley, S. J. Barrett, N. L. Catlett, A. J. Bargnesi, S. Ungerer, T. Seagaran, W. Ladd, K. O. Elliston, S. Jaeger, J. Min, F. Nigsch, M. Camargo, J. Hutz, A. Cornett, S. Cleaver, A. Buckler, J. L. Jenkins, J. H. Woo, Y. Shimoni, W. S. Yang, P. Subramaniam, A. Iyer, P. Nicoletti, M. Rodríguez Martínez, G. López, M. Mattioli, R. Realubit, C. Karan, B. R. Stockwell, M. Bansal, A. Califano, H. Noh, J. E. Shoemaker, R. Gunawan, A. Liu, P. Trairatphisan, E. Gjerga, A. Didangelos, J. Barratt, A. Dugourd, C. Kuppe, M. Sciacovelli, K. B. Emdal, D. B. Bekker-Jensen, J. Kranz, E. M. J. Bindels, A. S. H. Costa, J. V. Olsen, C. Frezza, R. Kramann, A. Dubovenko, Y. Nikolsky, E. Rakhmatulin, T. Nikolskaya, A. Krämer, J. Green, J. Pollard, S. Tugendreich, C. Wiwie, J. Baumbach, R. Röttger, M. R. Karim, O. Beyan, A. Zappa, I. G. Costa, D. Rebholz-Schuhmann, M. Cochez, S. Decker, D. Xu, Y. Tian, F. Pedregosa, G. Varoquaux, A. Gramfort, V. Michel, B. Thirion, O. Grisel, M. Blondel, P. Prettenhofer, R. Weiss, V. Dubourg, J. Vanderplas, A. Passos, D. Cournapeau, M. Mächler, P. Rousseeuw, A. Struyf, M. Hubert, K. Hornik, A. Kassambara, F. Mundt, R. Argelaguet, B. Velten, D. Arnol, S. Dietrich, T. Zenz, J. C. Marioni, F. Buettner, W. Huber, O. Stegle, A. Klami, S. Virtanen, E. Leppäaho, S. Kaski, S. A. Khan, O. P. Kallioniemi, A. Poso, T. Chen, S. Tyagi, D. Bredikhin, Y. Deloro, E. Leppaaho, M. Ammad-ud-din, I. Subramanian, S. Verma, S. Kumar, A. Jere, K. Anamika, R. Chen, X. Liu, S. Jin, J. Lin, J. Liu, J. Vamathevan, D. Clark, P. Czodrowski, I. Dunham, E. Ferran, G. Lee, B. Li, A. Madabhushi, P. Shah, M. Spitzer, S. Zhao, J. Scheiber, M. Glick, J. W. Davies, K. Azzaoui, J. Hamon, L. Urban, S. Whitebread, D. Rogers, M. Hahn, Y. C. Martin, J. L. Kofron, L. M. Traphagen, S. Gao, D. Luo, G. Liu, Z. Xiao, G. Shan, Y. Zhang, W. Zhou, C. Scheeder, M. Boutros, R. P. Sheridan, L. M. Kauvar, D. L. 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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

A targetable CoQ-FSP1 axis drives ferroptosis- and radiation-resistance in KEAP1 inactive lung cancers - Nature Communications

Koppula, Pranavi, Lei, Guang, Zhang, Yilei +11 more · 2022 · Nature Publishing Group · Nature · added 2026-04-20
KEAP1 mutations are frequently observed in NSCLC and lead to drug resistance. Here, the authors show that KEAP1 mutations in lung cancer cells leads to FSP1 upregulation through NRF2, resulting in fer Show more
KEAP1 mutations are frequently observed in NSCLC and lead to drug resistance. Here, the authors show that KEAP1 mutations in lung cancer cells leads to FSP1 upregulation through NRF2, resulting in ferroptosis resistance and radioresistance. Show less
📄 PDF DOI: 10.1038/s41467-022-29905-1
Fe

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

Small Molecules Promote Selective Denaturation and Degradation of Tubulin Heterodimers through a Low-Barrier Hydrogen Bond

Jianhong Yang, Yong Li, Qiang Qiu +12 more · 2022 · Journal of Medicinal Chemistry · ACS Publications · added 2026-04-20
Here, we report a novel mechanism to selectively degrade target proteins. 3-(3-Phenoxybenzyl)amino-β-carboline (PAC), a tubulin inhibitor, promotes selective degradation of αβ-tubulin heterodimers. Bi Show more
Here, we report a novel mechanism to selectively degrade target proteins. 3-(3-Phenoxybenzyl)amino-β-carboline (PAC), a tubulin inhibitor, promotes selective degradation of αβ-tubulin heterodimers. Biochemical studies have revealed that PAC specifically denatures tubulin, making it prone to aggregation that predisposes it to ubiquitinylation and then degradation. The degradation is mediated by a single hydrogen bond formed between the pyridine nitrogen of PAC and βGlu198, which is identified as a low-barrier hydrogen bond (LBHB). In contrast, another two tubulin inhibitors that only form normal hydrogen bonds with βGlu198 exhibit no degradation effect. Thus, the LBHB accounts for the degradation. We then screened for compounds capable of forming an LBHB with βGlu198 and demonstrated that BML284, a Wnt signaling activator, also promotes tubulin heterodimer degradation through the LBHB. Our study provided a unique example of LBHB function and identified a novel approach to obtain tubulin degraders. Show less
no PDF DOI: 10.1021/acs.jmedchem.2c00379
3-(3-phenoxybenzyl)amino-β-carboline (pac) biochemical studies bml284 degradation denaturation low-barrier hydrogen bond nmr protein

Parthanatos and its associated components: Promising therapeutic targets for cancer.

Yunxiang Zhou, Lihong Liu, Sifeng Tao +5 more · 2021 · Pharmacological research · Elsevier · added 2026-04-20
Parthanatos is a PARP1-dependent, caspase-independent, cell-death pathway that is distinct from apoptosis, necrosis, or other known forms of cell death. Parthanatos is a multistep pathway that plays a Show more
Parthanatos is a PARP1-dependent, caspase-independent, cell-death pathway that is distinct from apoptosis, necrosis, or other known forms of cell death. Parthanatos is a multistep pathway that plays a pivotal role in tumorigenesis. There are many molecules in the parthanatos cascade that can be exploited to create therapeutic interventions for cancer management, including PARP1, PARG, ARH3, AIF, and MIF. These critical molecules are involved in tumor cell proliferation, progression, invasion, and metastasis. Therefore, these molecular signals in the parthanatos cascade represent promising therapeutic targets for cancer therapy. In addition, intimate interactions occur between parthanatos and other forms of cancer cell death, such as apoptosis and autophagy. Thus, co-targeting a combination of parthanatos and other death pathways may further provide a new avenue for cancer precision treatment. In this review, we elaborate on the signaling pathways of canonical parthanatos and briefly introduce the non-canonical parthanatos. We also shed light on the role parthanatos and its associated components play in tumorigenesis, particularly with respect to the aforementioned five molecules, and discuss the promise targeted therapy of parthanatos and its associated components holds for cancer therapy. Show less
no PDF DOI: 10.1016/j.phrs.2020.105299
Co review

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
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

3-(1H-benzoimidazol-2-yl)-chromen-2-ylideneamine platinum(II) and ruthenium(II) complexes exert their high in vitro antitumor activity by inducing S-phase arrest and disrupting mitochondrial functions in SK-OV-3/DDP tumor cells

Qi-Pin Qin, Shu-Long Wang, Ming-Xiong Tan +6 more · 2019 · Polyhedron · Elsevier · added 2026-05-01
📄 PDF DOI: 10.1016/j.poly.2018.10.012
Biometal

Evaluation of anticancer activity in vitro and in vivo of iridium(iii) polypyridyl complexes

Miao He, Qiao-Yan Yi, Wen-Yao Zhang +5 more · 2019 · New Journal of Chemistry · Royal Society of Chemistry · added 2026-05-01
📄 PDF DOI: 10.1039/c9nj01001g
Biometal

Inhibition of telomerase activity and SK-OV-3/DDP cell apoptosis by rhodium(III) and iron(III) complexes with 4′-(3-thiophenecarboxaldehyde)-2,2′:6′,2″-terpyridine

Qing-Min Wei, Zhen-Feng Wang, Qi-Pin Qin +5 more · 2019 · Inorganic Chemistry Communications · Elsevier · added 2026-05-01
📄 PDF DOI: 10.1016/j.inoche.2019.02.030
Biometal apoptosis

Synthesis of a Ruthenium(II) Compound based on 5‐(2‐Pyrimidyl)‐1H‐tetrazole for Photodynamic Therapy

Bo Wei, Meng Yue Guo, Yi Ming Lu +3 more · 2018 · Zeitschrift für anorganische und allgemeine Chemie · Wiley · added 2026-04-20
RuII compounds have been universally investigated due to their unique physical and chemical properties. In this paper, a new RuII compound based on 2,2′‐bipy and Hpmtz [2,2′‐bipy = 2,2′‐bipyridine, Hp Show more
RuII compounds have been universally investigated due to their unique physical and chemical properties. In this paper, a new RuII compound based on 2,2′‐bipy and Hpmtz [2,2′‐bipy = 2,2′‐bipyridine, Hpmtz = 5‐(2‐pyrimidyl)‐1H‐tetrazole], namely [Ru(2,2′‐bipy)2(pmtz)][PF6]·0.5H2O was prepared and characterized by elemental analysis, IR and single‐crystal X‐ray diffraction. [Ru(2,2′‐bipy)2(pmtz)][PF6]·0.5H2O shows a mononuclear structure and forms a three‐dimensional network by non‐classic hydrogen bonds. The ability of generation of ROS (reactive oxygen species) makes it has a low phototoxicity IC50 (half‐maximal inhibitory concentration) after Xenon lamp irradiation on Hela cells in vitro. The results demonstrate that [Ru(2,2′‐bipy)2(pmtz)][PF6]·0.5H2O with high light toxicity and low dark toxicity may be a potential candidate for photodynamic therapy. Show less
no PDF DOI: 10.1002/zaac.201700343
HeLa Ir ROS Ru X-ray photoactivated pyridine synthesis

Photolabile Ruthenium(II)–Purine Complexes: Phototoxicity, DNA Binding, and Light‐Triggered Drug Release

Hazel Chan, Joy B. Ghrayche, Jianhua Wei +1 more · 2017 · European Journal of Inorganic Chemistry · Wiley · added 2026-05-01
📄 PDF DOI: 10.1002/ejic.201601137
Biometal

Novel mononuclear ruthenium(ii) complexes as potent and low-toxicity antitumour agents: synthesis, characterization, biological evaluation and mechanism of action

Pengchao Hu, Ying Wang, Yan Zhang +6 more · 2016 · RSC Advances · Royal Society of Chemistry · added 2026-05-01
📄 PDF DOI: 10.1039/c6ra02571d
Biometal

An Oxygen-Chelate Complex, Palladium Bis-acetylacetonate, Induces Apoptosis in H460 Cells via Endoplasmic Reticulum Stress Pathway Rather than Interacting with DNA

Yi Wang, Jie Hu, Yuepiao Cai +8 more · 2013 · Journal of Medicinal Chemistry · ACS Publications · added 2026-04-20
Current precious-metal-containing anticancer agents are mostly chelated with N-containing ligands and function by interacting with DNA. In the present study, Pd(acac)2, a Pd(II) complex containing fou Show more
Current precious-metal-containing anticancer agents are mostly chelated with N-containing ligands and function by interacting with DNA. In the present study, Pd(acac)2, a Pd(II) complex containing four O-donor ligands, has been evaluated as an active anticancer agent. Pd(acac)2 showed no interaction with N-ligand-containing DNA and the S-ligand-containing DMSO, probably because of the two six-member chelate rings that limit the release of the central Pd nuclei to bind to other ligands. Importantly, we found that Pd(acac)2 exhibited better growth inhibitory effects than cisplatin in several cancer cells. Treatment with Pd(acac)2 significantly induced apoptosis in H460 cells. Mechanistically, Pd(acac)2 induced the activation of a series of key components in ER stress-mediated apoptotic pathway, followed by caspase cleavage and activation, while cisplatin showed no similar effects. CHOP knockdown by specific siRNA significantly attenuated Pd(acac)2-induced cell apoptosis. Finally, Pd(acac)2 significantly inhibits H460 cell growth in xenograft mouse models. Taken together, these mechanistic insights on Pd(acac)2 provide us with a novel mechanism and strategy for the development of precious-metal-based anticancer drugs. Show less
no PDF DOI: 10.1021/jm4016312
Pd carboxylate