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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

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

Exploring the therapeutic potential of ruthenium(II)-bis(benzimidazol-2-yl)pyridine complex on MDA-MB-231, HCT-116 and normal L6 cell lines

S. Arul Mary, Sheeba Daniel, P. Sakthivel · 2024 · Inorganic Chemistry Communications · Elsevier · added 2026-05-01

📄 PDF DOI: 10.1016/j.inoche.2024.113339

Biometal

👤 A. Sakthivel

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

Metal-Based Drug–DNA Interactions and Analytical Determination Methods

Exploring the therapeutic potential of ruthenium(II)-bis(benzimidazol-2-yl)pyridine complex on MDA-MB-231, HCT-116 and normal L6 cell lines