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

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

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

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

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

📄 PDF DOI: 10.32604/or.2025.065755

ROS amino-acid anticancer review synthesis

Fundamentals of redox regulation in biology.

Helmut Sies, Ryan J Mailloux, Ursula Jakob · 2024 · Nature reviews. Molecular cell biology · Nature · added 2026-04-20

Oxidation-reduction (redox) reactions are central to the existence of life. Reactive species of oxygen, nitrogen and sulfur mediate redox control of a wide range of essential cellular processes. Yet, Show more

Oxidation-reduction (redox) reactions are central to the existence of life. Reactive species of oxygen, nitrogen and sulfur mediate redox control of a wide range of essential cellular processes. Yet, excessive levels of oxidants are associated with ageing and many diseases, including cardiological and neurodegenerative diseases, and cancer. Hence, maintaining the fine-tuned steady-state balance of reactive species production and removal is essential. Here, we discuss new insights into the dynamic maintenance of redox homeostasis (that is, redox homeodynamics) and the principles underlying biological redox organization, termed the 'redox code'. We survey how redox changes result in stress responses by hormesis mechanisms, and how the lifelong cumulative exposure to environmental agents, termed the 'exposome', is communicated to cells through redox signals. Better understanding of the molecular and cellular basis of redox biology will guide novel redox medicine approaches aimed at preventing and treating diseases associated with disturbed redox regulation. Show less

no PDF DOI: 10.1038/s41580-024-00730-2

bioinorganic cancer cardiovascular cells hormesis medicinal chemistry neurodegeneration oxidants

Defining roles of specific reactive oxygen species (ROS) in cell biology and physiology.

Helmut Sies, Vsevolod V Belousov, Navdeep S Chandel +6 more · 2022 · Nature reviews. Molecular cell biology · Nature · added 2026-04-20

Helmut Sies, Vsevolod V Belousov, Navdeep S Chandel, Michael J Davies, Dean P Jones, Giovanni E Mann, Michael P Murphy, Masayuki Yamamoto, Christine Winterbourn Show less

'Reactive oxygen species' (ROS) is a generic term that defines a wide variety of oxidant molecules with vastly different properties and biological functions that range from signalling to causing cell Show more

'Reactive oxygen species' (ROS) is a generic term that defines a wide variety of oxidant molecules with vastly different properties and biological functions that range from signalling to causing cell damage. Consequently, the description of oxidants needs to be chemically precise to translate research on their biological effects into therapeutic benefit in redox medicine. This Expert Recommendation article pinpoints key issues associated with identifying the physiological roles of oxidants, focusing on H2O2 and O2.-. The generic term ROS should not be used to describe specific molecular agents. We also advocate for greater precision in measurement of H2O2, O2.- and other oxidants, along with more specific identification of their signalling targets. Future work should also consider inter-organellar communication and the interactions of redox-sensitive signalling targets within organs and whole organisms, including the contribution of environmental exposures. To achieve these goals, development of tools that enable site-specific and real-time detection and quantification of individual oxidants in cells and model organisms are needed. We also stress that physiological O2 levels should be maintained in cell culture to better mimic in vivo redox reactions associated with specific cell types. Use of precise definitions and analytical tools will help harmonize research among the many scientific disciplines working on the common goal of understanding redox biology. Show less

no PDF DOI: 10.1038/s41580-022-00456-z

ROS

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

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

JP Ježek, AGW Leslie, R Lutter, JE Walker, AE Adams, AM Carroll, PG Fallon, RK Porter, O Hanrahan, DN Nolan, HP Voorheis, P Fallon, OM Kelly, C Affourtit, MD Brand, M Jastroch, C Aguer, BD Piccolo, O Fiehn, SH Adams, ME Harper, L Alán, K Smolková, E Kronusová, J Šantorová, P Ježek, EM Allister, CA Robson-Doucette, KJ Prentice, AB Hardy, S Sultan, HY Gaisano, D Kong, P Gilon, PL Herrera, BB Lowell, MB Wheeler, R Amat, G Solanes, M Giralt, F Villarroya, ZB Andrews, ZW Liu, N Walllingford, DM Erion, E Borok, JM Friedman, MH Tschöp, M Shanabrough, G Cline, GI Shulman, A Coppola, XB Gao, TL Horvath, S Diano, MA Aon, S Cortassa, E Marbán, B O'Rourke, H Aquila, TA Link, M Klingenberg, D Arsenijevic, H Onuma, C Pecqueur, S Raimbault, BS Manning, B Miroux, E Couplan, MC Alves-Guerra, M Goubern, R Surwit, F Bouillaud, D Richard, S Collins, D Ricquier, V Ayyasamy, KM Owens, MM Desouki, P Liang, A Bakin, K Thangaraj, DJ Buchsbaum, AF LoBuglio, KK Singh, V Azzu, EP Breen, N Parker, G Baffy, Z Derdak, SC Robson, Y Bai, X Bai, AV Medvedev, M Misukonis, JB Weinberg, W Cao, J Robidoux, LM Floering, KW Daniel, KA Ball, AW Nelson, DG Foster, RO Poyton, J Barlow, V Hirschberg Jensen, CJ Barnstable, R Reddy, H Li, W Basu Ball, S Kar, M Mukherjee, AG Chande, R Mukhopadhyaya, PK Das, JM Baughman, F Perocchi, HS Girgis, M Plovanich, CA Belcher-Timme, Y Sancak, XR Bao, L Strittmatter, O Goldberger, RL Bogorad, V Koteliansky, VK Mootha, V Beck, M Jabůrek, EE Pohl, T Demina, A Rupprecht, EL Bell, TA Klimova, J Eisenbart, CT Moraes, MP Murphy, GRS Budinger, NS Chandel, MJ Berardi, JJ Chou, WM Shih, SC Harrison, M Bertolotti, G Farinelli, M Galli, A Aiuti, R Sitia, J Blanc, B Esposito, S Rousset, P Gourdy, A Tedgui, Z Mallat, L Bleier, S Dröse, M Board, C Lopez, C van den Bos, R Callaghan, K Clarke, C Carr, AI Bondarenko, W Parichatikanond, CT Madreiter, R Rost, M Waldeck-Weiermair, R Malli, WF Graier, J Borecký, D Siemen, O Boss, S Samec, A Paoloni-Giacobino, C Rossier, A Dulloo, J Seydoux, P Muzzin, JP Giacobino, S Boudina, S Sena, BT O'Neill, P Tathireddy, ME Young, ED Abel, H Theobald, X Sheng, JJ Wright, XH Xia, S Aziz, JI Johnson, H Bugger, VG Zaha, TC Esteves, J Brandi, D Cecconi, M Cordani, M Torrens-Mas, R Pacchiana, E Dalla Pozza, G Butera, M Manfredi, E Marengo, J Oliver, P Roca, I Dando, M Donadelli, MO Breckwoldt, FMJ Pfister, PM Bradley, P Marinković, PR Williams, MS Brill, B Plomer, A Schmalz, DK St Clair, R Naumann, O Griesbeck, M Schwarzländer, L Godinho, FM Bareyre, TP Dick, M Kerschensteiner, T Misgeld, W Pilgrim, KJ Clarke, C Yssel, M Farrell, J Zhou, PV Murphy, PS Brookes, JA Buckingham, A Vidal-Puig, AP Halestrap, TE Gunter, DG Nicholls, P Bernardi, JJ Lemasters, A Bugge, M Siersbæk, MS Madsen, A Göndör, C Rougier, S Mandrup, C Guzman, C Zechner, M Palmeri, KS Russell, RR Russell, JA Cabrera, EA Ziemba, R Colbert, RF Kelly, M Kuskowski, EA Arriaga, W Sluiter, DJ Duncker, HB Ward, EO McFalls, V Calegari, CC Zoppi, L Rezende, L Silveira, E Carneiro, AC Boschero, B Cannon, IG Shabalina, TV Kramarova, N Petrovic, J Nedergaard, A Caron, SM Labbé, S Carter, MC Roy, R Lecomte, F Picard, LR Haines, TW Pearson, CM Walsh, CM Brennan, E Casanova, L Baselga-Escudero, A Ribas-Latre, A Arola-Arnal, C Bladé, L Arola, MJ Salvadó, HZ Chae, H Oubrahim, JW Park, SG Rhee, PB Chock, CB Chan, SL Chan, D Liu, GA Kyriazis, P Bagsiyao, X Ouyang, MP Mattson, L Chaudhuri, RK Srivastava, F Kos, PA Shrikant, M Che, R Wang, X Li, HY Wang, XFS Zheng, C Chen, K Wang, J Chen, J Guo, Y Yin, X Cai, X Guo, G Wang, R Yang, L Zhu, Y Zhang, J Wang, Y Xiang, C Weng, K Zen, J Zhang, CY Zhang, Y Chen, J Liu, Y Zheng, Z Wang, S Gu, J Tan, Q Jing, H Yang, J Cheng, G Nanayakkara, Y Shao, R Cueto, L Wang, WY Yang, Y Tian, H Wang, X Yang, N Cheurfa, D Dubois-Laforgue, DAF Ferrarezi, AF Reis, GM Brenner, C Bouche, C Le Feuvre, F Fumeron, J Timsit, M Marre, G Velho, SY Cho, D Seo, WG Kim, S Lee, YS Cho, JH Lee, KH Jung, SH Moon, YS Choe, KH Lee, ET Chouchani, L Kazak, MP Jedrychowski, GZ Lu, BK Erickson, J Szpyt, KA Pierce, D Laznik-Bogoslavski, R Vetrivelan, CB Clish, AJ Robinson, SP Gygi, BM Spiegelman, C Methner, G Buonincontri, CH Hu, A Logan, SJ Sawiak, T Krieg, VR Pell, E Gaude, D Aksentijević, SY Sundier, EL Robb, SM Nadtochiy, ENJ Ord, AC Smith, F Eyassu, R Shirley, C-H Hu, AJ Dare, AM James, S Rogatti, RC Hartley, S Eaton, ASH Costa, SM Davidson, MR Duchen, K Saeb-Parsy, MJ Shattock, LM Work, C Frezza, YC Chuang, TK Lin, HY Huang, WN Chang, CW Liou, SD Chen, AY Chang, SH Chan, L Contreras, E Rial, S Cerdan, J Satrustegui, E Paradis, A Corcoran, TG Cotter, D Cosentino-Gomes, N Rocco-Machado, JR Meyer-Fernandes, LF Costa Rosa, R Curi, C Murphy, P Newsholme, MDM Gonzalez-Barroso, PG Crichton, Y Lee, ERS Kunji, MD Cruz, S Ledbetter, S Chowdhury, AK Tiwari, N Momi, RK Wali, C Bliss, C Huang, D Lichtenstein, S Bhattacharya, A Varma-Wilson, V Backman, HK Roy, M D'Adamo, L Perego, M Cardellini, MA Marini, S Frontoni, F Andreozzi, A Sciacqua, D Lauro, P Sbraccia, M Federici, M Paganelli, AE Pontiroli, R Lauro, F Perticone, F Folli, G Sesti, A Daiber, F Di Lisa, M Oelze, S Kröller-Schön, S Steven, E Schulz, T Münzel, LT Dalgaard, G Andersen, LH Larsen, TIA Sørensen, T Andersen, T Drivsholm, K Borch-Johnsen, J Fleckner, T Hansen, N Din, O Pedersen, C Fiorini, ED Pozza, C Padroni, C Costanzo, M Palmieri, S Dato, F De Rango, P Crocco, G Passarino, G Rose, PBM De Andrade, M Casimir, P Maechler, P De Lange, A Feola, M Ragni, R Senese, M Moreno, A Lombardi, E Silvestri, F Goglia, A Lanni, U De Marchi, C Castelbou, N Demaurex, R De Simone, MA Ajmone-Cat, M Pandolfi, A Bernardo, C De Nuccio, L Minghetti, S Visentin, D De Stefani, A Raffaello, E Teardo, I Szabò, R Rizzuto, T Pozzan, G Den Besten, A Bleeker, A Gerding, K Van Eunen, R Havinga, TH Van Dijk, MH Oosterveer, JW Jonker, AK Groen, DJ Reijngoud, BM Bakker, Z Derdák, P Fülöp, E Sabo, R Tavares, EP Berthiaume, MB Resnick, G Paragh, JR Wands, NM Mark, G Beldi, SS Dhamrait, JW Stephens, JA Cooper, J Acharya, AR Mani, K Moore, GJ Miller, SE Humphries, SJ Hurel, HE Montgomery, JK Jeong, MO Dietrich, HB Ruan, E Kim, S Suyama, K Kelly, E Gyengesi, JL Arbiser, DD Belsham, DA Sarruf, MW Schwartz, AM Bennett, CV Mobbs, WX Ding, M Li, JM Biazik, DG Morgan, F Guo, HM Ni, M Goheen, EL Eskelinen, XM Yin, AS Divakaruni, A Dlasková, L Hlavatá, J Ježek, T Špacek, E Škobisová, U Brandt, RH Du, FF Wu, M Lu, X dong Shu, JH Ding, G Wu, G Hu, CM Duffy, H Xu, JP Nixon, DA Bernlohr, TA Butterick, D Duteil, C Chambon, F Ali, R Malivindi, J Zoll, S Kato, B Geny, P Chambon, D Metzger, C Duval, A Nègre-Salvayre, A Doglio, R Salvayre, L Pénicaud, L Casteilla, F Echeverría, M Ortiz, R Valenzuela, LA Videla, KS Echtay, JL Pakay, MB Jekabsons, AJ Lambert, M Portero-Otín, R Pamplona, AJ Vidal-Puig, S Wang, SJ Roebuck, V Eisner, RR Cupo, E Gao, G Csordás, WS Slovinsky, M Paillard, L Cheng, J Ibetti, SRW Chen, JK Chuprun, JB Hoek, WJ Koch, G Hajnóczky, A Elorza, B Hyde, HK Mikkola, OS Shirihai, Y Emre, C Hurtaud, T Nübel, F Criscuolo, AM Cassard-Doulcier, H Esterbauer, C Schneitler, H Oberkofler, C Ebenbichler, B Paulweber, F Sandhofer, G Ladurner, E Hell, AD Strosberg, JR Patsch, F Krempler, W Patsch, P Esteves, C Ransy, C Esnous, V Lenoir, AL Bulteau, A Lombès, C Prip-Buus, Y Fan, K Futawaka, R Koyama, Y Fukuda, M Hayashi, M Imamoto, T Miyawaki, M Kasahara, T Tagami, K Moriyama, A Fedorenko, PV Lishko, Y Kirichok, C Fleury, M Neverova, O Champigny, C Levi-Meyrueis, MF Seldin, RS Surwit, CH Warden, S Freigang, F Ampenberger, A Weiss, T-D Kanneganti, Y Iwakura, M Hersberger, M Kopf, R Fukumori, T Takarada, Y Kambe, R Nakazato, K Fujikawa, Y Yoneda, M Kou, E Hinoi, DR Gable, S Galetti, A Sarre, H Perreten, N Produit-Zengaffinen, F Assimacopoulos-Jeannet, S Gargiulo, MP Petretta, A Greco, M Panico, M Larobina, M Gramanzini, GG Schiattarella, G Esposito, M Petretta, A Brunetti, A Cuocolo, AO Garlid, JP Jacobs, KD Garlid, ADT Costa, CL Quinlan, SV Pierre, P Dos Santos, 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Hou, Y Ding, T Zhang, C Shi, W Fu, Z Cai, F Yin, H Sancheti, E Cadenas, H Yoshitomi, K Yamazaki, I Tanaka, T Liu, SB Jin, C Ning, U Lendahl, M Nistér, SX Yu, CT Du, W Chen, QQ Lei, N Li, S Qi, XJ Zhang, GQ Hu, XM Deng, WY Han, YJ Yang, XX Yu, W Mao, A Zhong, P Schow, J Brush, SW Sherwood, G Pan, P Perret, O Peroni, YB Kim, XX Zheng, R Shen, CT Lin, JA Porco, HJ Zhang, W Zhao, S Venkataraman, MEC Robbins, GR Buettner, KC Kregel, LW Oberley, I Khvorostov, JS Hong, Y Oktay, L Vergnes, E Nuebel, PN Wahjudi, K Setoguchi, A Do, HJ Jung, JM McCaffery, IJ Kurland, K Reue, WNP Lee, CM Koehler, MA Teitell, K Zhang, Z Song, G Zheng, J Lyu, S Liu, J Huang, C Liu, D Xiang, M Xie, Q Zeng, M Zhou, PKH Tam, KSL Lam, B Huang, Y Liang, D Wu, Y Zhou, T Cai, J Xu, L Jiang, J Wu, Q Sun, R Zhu, A Ebner, T Haselgrübler, HJ Gruber, P Hinterdorfer Show less

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

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

📄 PDF DOI: 10.1089/ars.2017.7225

mitochondria

👤 H Sies

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

Fundamentals of redox regulation in biology.

Defining roles of specific reactive oxygen species (ROS) in cell biology and physiology.

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