๐Ÿ‘ค V. Chua

๐Ÿ” Search ๐Ÿ“‹ Browse ๐Ÿท๏ธ Tags โค๏ธ Favourites โž• Add ๐Ÿงฌ Extraction
2
Articles
2
Name variants
Also published as: KF Chua,
articles

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 ยท 2023 ยท Cells ยท MDPI ยท added 2026-04-20
A.W. Greene, J. Baek, O. Ashenberg, A.E. Keating, W.H. Landschulz, P.F. Johnson, S.L. McKnight, C.R. Vinson, K.C. Garcia, J. Lekstrom-Himes, K.G. Xanthopoulos, P. Agre, T. Hai, S.M. Boyd, J.R. Newman, J. Jumper, R. Evans, A. Pritzel, T. Green, M. Figurnov, O. Ronneberger, K. Tunyasuvunakool, R. Bates, A. Zidek, A. Potapenko, M. Varadi, S. Anyango, M. Deshpande, S. Nair, C. Natassia, G. Yordanova, D. Yuan, O. Stroe, G. Wood, A. Laydon, T.K. Sears, J.M. Angelastro, P. Deng, C.M. Haynes, P. Paerhati, J. Liu, Z. Jin, T. Jakos, S. Zhu, L. Qian, J. Zhu, Y. Yuan, T. Sebastian, J.J. Smink, A. Leutz, S.E. van der Krieken, H.E. Popeijus, R.P. Mensink, J. Plat, M. Pulido-Salgado, J.M. Vidal-Taboada, J. Saura, M. Miller, A.J. Spike, J.M. Rosen, K. Balamurugan, E. Sterneck, L. Klimaschewski, S. Tang, O.V. Vitolo, T.A. Weissman, L.T. Donlin, M.L. Shelanski, L.A. Greene, J.M. Aletta, A. Rukenstein, S.H. Green, T.N. Ignatova, V.G. Kukekov, D.A. Steindler, G.B. Stengren, C. Mendelsohn, J.L. Mason, J.E. Goldman, G. Lin, M. Umemura, T. Ogura, A. Matsuzaki, H. Nakano, K. Takao, T. Miyakawa, Y. Takahashi, Y. Kaneko, R. Tanabe, L.R. Devireddy, J.G. Teodoro, F.A. Richard, M.R. Green, S.P. Persengiev, Z. Sheng, L. Li, L.J. Zhu, T.W. Smith, A. Demers, A.H. Ross, R.P. Moser, P.D. Canoll, J. Kuo, M. Weicker, A. Costa, J.N. Bruce, R. Huang, D. Qian, M. Hu, X. Zhang, J. Song, H. Chen, B. Wang, M. Wang, L. Wei, L. Zhang, D.X. Liu, J. Feldheim, A.F. Kessler, D. Schmitt, L. Wilczek, T. Linsenmann, M. Dahlmann, C.M. Monoranu, R.I. Ernestus, C. Hagemann, M. Lohr, D. York, C.D. Sproul, N. Chikere, P.J. Dickinson, T. Wang, R. Yang, J.L. Huang, G. Jiang, Q.X. Song, X. Gu, X.L. Wang, H.H. Song, L.P. Chen, Y.Y. Lin, D. Jiang, D. Zhou, L.R. Palam, L. Jiang, J. Narasimhan, K.A. Staschke, R.C. Wek, M. Costa-Mattioli, P. Walter, X.M. Hua, J. Wang, D.M. Qian, J.Y. Song, X.L. Zhu, R. Zhou, Y.D. Zhao, X.Z. Zhou, Z. Li, H. Li, H. Xie, M. Fan, N. Zhang, J. Ma, S. Che, H.Y. Lee, S.E. Monaco, M. Szabolcs, S. Dong, C.L. Nutt, R.A. Betensky, A.O. Stemmer-Rachamimov, N.C. Denko, K.L. Ligon, D.H. Rowitch, D.N. Louis, X. Wang, F. Xing, I. Herskowitz, B.N. Nguyen, L.W. Elmore, S.E. Holt, S. Dejager, M. Mietus-Snyder, A. Friera, R.E. Pitas, D. Krylov, M. Olive, C. Vinson, S.C. Williams, C. Dezan, D.R. Echlin, K. Gardner, E. Taparowsky, A. Arias, M.W. Lame, L. Santarelli, R. Hen, M. Assanah, R. Lochhead, A. Ogden, J. Bruce, J. Goldman, P. Canoll, G. Hesselager, L. Uhrbom, B. Westermark, M. Nister, N. Vale, D. Duarte, S. Silva, A.S. Correia, B. Costa, M.J. Gouveia, A. Ferreira, E. Dupont, A. Prochiantz, A. Joliot, C.C. Cates, A.D. Arias, L.S. Nakayama Wong, M. Sidorov, G. Cayanan, D.J. Rowland, J. Fung, G. Karpel-Massler, M.D. Siegelin, N.A. Ciaccio, T.S. Reynolds, C.R. Middaugh, J.S. Laurence, B.A. Horst, C. Shu, L. Chau, T. Tsujiuchi, C.S. Peters, X. Liang, S. Li, S. Kannan, Y. Peng, R. Taub, R.H. Diamond, M.L. Moreno, R.L. Bauer, X. Sun, P. Jefferson, Q. Zhou, T. Nakajima, S. Kinoshita, T. Sasagawa, K. Sasaki, M. Naruto, T. Kishimoto, S. Akira, J. Homma, R. Yamanaka, N. Yajima, N. Tsuchiya, N. Genkai, M. Sano, R. Tanaka, M.S. Carro, W.K. Lim, M.J. Alvarez, R.J. Bollo, X. Zhao, E.Y. Snyder, E.P. Sulman, S.L. Anne, F. Doetsch, H. Colman, L.A. Cooper, D.A. Gutman, C. Chisolm, C. Appin, J. Kong, Y. Rong, T. Kurc, E.G. Van Meir, J.H. Saltz, C.S. Moreno, T. Chu, E.J. Rice, G.T. Booth, H.H. Salamanca, Z. Wang, L.J. Core, S.L. Longo, R.J. Corona, L.S. Chin, J.T. Lis, T. Kudo, M.T. Prentzell, S.R. Mohapatra, F. Sahm, Z. Zhao, I. Grummt, W. Wick, C.A. Opitz, M. Platten, E.W. Green, K. Lei, Y. Xia, X.C. Wang, E.H. Ahn, L. Jin, K. Ye, D. Wang, X. Ruan, X. Liu, Y. Xue, L. Shao, C. Yang, L. Zhu, Y. Yang, B. Yu, S.M. Wang, W.C. Lin, H.Y. Lin, Y.L. Chen, C.Y. Ko, J.M. Wang, J. Halliday, K. Helmy, S.S. Pattwell, K.L. Pitter, Q. LaPlant, T. Ozawa, E.C. Holland, M. Minata, A. Audia, J. Shi, S. Lu, J. Bernstock, M.S. Pavlyukov, A. Das, S.H. Kim, Y.J. Shin, Y. Lee, J. Yin, Y.T. Oh, J.Y. Kim, S.S. Kim, E. Choi, T.H. Kim, J.H. Hong, N. Chang, H.J. Cho, J.K. Sa, D. Aguilar-Morante, M. Cortes-Canteli, M. Sanz-Sancristobal, A. Santos, A. Perez-Castillo, J.A. Morales-Garcia, F. Di Pascale, S. Nama, M. Muhuri, S. Quah, H.M. Ismail, X.H.D. Chan, G.M. Sundaram, R. Ramalingam, B. Burke, P. Sampath, T.I. Hsu, J.Y. Chuang, T.J. Kao, S.W. Lim, W.B. Yang, C.C. Huang, Y.T. Tsai, W.C. Chang, K. Biserova, A. Jakovlevs, R. Uljanovs, I. Strumfa, Y. Gao, B. Liu, L. Feng, B. Sun, S. He, G. Wu, G. E, C. Liu, Z. Gao, J. Xu, Y. Fan, Y. Qi, S. Wang, S. Zhao, X. Guo, H. Xue, L. Deng, R. Zhao, L. Selagea, A. Mishra, M. Anand, J. Ross, C. Tucker-Burden, D.J. Brat, X. Kong, W. Meng, Z. Zhou, Y. Li, B. Zhou, R. Wang, L. Zhan, L. Yang, W. Yu, Q. Wu, J. Lian, F. Li, S. Liu, A. Li, Z. He, K. Shao, W. Pu, J. Zhang, S. Guo, F. Qian, I. Glurich, Q. Jin, Y. Ma, S. Ju, Z. Zhang, X. Tang, Y. Liang, G. Sun, Q. He, H. Qu, P. Gao, Y. Shu, H. Bao, S. Han, Z. Liu, N. Zhao, W. Yuan, C. Jian, X. Shu, J. Pang, L. Wang, Q. Dong, D. Jin, I.C. Salaroglio, D.C. Belisario, M. Akman, S. La Vecchia, M. Godel, D.P. Anobile, G. Ortone, S. Digiovanni, S. Fontana, C. Costamagna, K. Okazaki, H. Anzawa, N. Ota, H. Kitamura, Y. Onodera, M.M. Alam, D. Matsumaru, T. Suzuki, F. Katsuoka, K. Kinoshita, H. Sekine, H. Motohashi, M. Liu, R. Li, T. Liu, D. Zhang, M. Shen, X. Ren, Q. Sun, B.A. Sterken, T. Ackermann, C. Muller, H.R. Zuidhof, G. Kortman, A. Hernandez-Segura, M. Broekhuis, D. Spierings, V. Guryev, C.F. Calkhoven, X.Z. Liu, A. Rulina, M.H. Choi, L. Pedersen, J. Lepland, S.T. Takle, N. Madeleine, S.D. Peters, C.E. Wogsland, S.M. Grondal, D. Xia, H. Cao, C. Wu, Z. Sun, H. Liu, L.L. Lee, S.J. Kim, Y.I. Hahn, J.H. Jang, S. Saeidi, Y.J. Surh, H. Wu, J. Gu, W. Cheng, Y. Wang, Q. Wang, R. Zhang, X. Li, H. Zhang, H. Xu, F. Wang, L. Tang, K. Ning, N. Geng, F. Liu, D. Mendoza-Villanueva, S. Sharan, G.H. Summers, L.E. Dobrolecki, M.T. Lewis, J. Cao, S. Ben-Shmuel, R. Rashed, R. Rostoker, E. Isakov, Z. Shen-Orr, D. Leroith, E. Kurzejamska, J. Johansson, K. Jirstrom, V. Prakash, S. Ananthaseshan, L. Boon, J. Fuxe, P. Religa, B.H. Park, S. Kook, S. Lee, J.H. Jeong, A. Brufsky, B.C. Lee, A. Chen, J. Lu, D. Liu, X.X. Zhang, M.C. Li, C.H. Cao, D.Y. Wan, B.X. Xi, J.H. Tan, Z.Y. Yang, X.X. Feng, J. Tan, X. Zheng, M. Li, F. Ye, C. Song, C. Xu, W. Li, S. Zeng, S. Yang, R. Cheng, B. Pang, P. Sun, T.C. Hour, Y.L. Lai, C.I. Kuan, C.K. Chou, H.Y. Tu, H.T. Hu, C.S. Lin, W.J. Wu, Y.S. Pu, B. Jin, Y. Gong, L. Jiao, D. Xin, L. Zhou, Y. Jin, J. Zhou, H. Tian, X. Zhi, Z. Xiao, T. Chen, H. Yuan, Q. Chen, M. Chen, J. Yang, G. Regalo, P. Canedo, G. Suriano, C. Resende, M.L. Campos, M.J. Oliveira, C. Figueiredo, P. Rodrigues-Pereira, N. Blin, R. Seruca, S. Du, Z. Yang, X. Lu, S. Yousuf, M. Zhao, J. Miao, H. Yu, X. Zhu, M.H. Kim, A.Z. Minton, V. Agrawal, D.J. Barakat, J. Mendonca, T. Barberi, S.K. Kachhap, I. Paz-Priel, A.D. Friedman, S.R. Denmeade, D. Li, S. Huang, X. Bi, X. Pu, H. Adamo, P. Hammarsten, C. Hagglof, T. Dahl Scherdin, L. Egevad, P. Stattin, S. Halin Bergstrom, A. Bergh, W.J. Wang, H.Y. Lai, F. Zhang, W.J. Shen, P.Y. Chu, H.Y. Liang, Y.B. Liu, X. Song, C.S. Huang, J. Chu, X.X. Zhu, J.H. Li, X.T. Huang, J.P. Cai, W. Zhao, X.Y. Yin, A. Ramirez, J.L. Jorcano, R.C. Smart, Z.J. Messenger, J.R. Hall, D.D. Jima, J.S. House, H.W. Tam, D.A. Tokarz, Y. Zhou, Q. Xu, B. Yang, S. Jiang, L. Hu, Q. Li, Y. Shuai, E. Fan, Q. Zhong, G. Feng, X. Gou, G. Zhang, Q. Du, Z. Tan, F. Shi, M. Tang, L. Xie, L. Zhao, J. Hu, M. Zhou, A. Bode, Q. Huang, Y. Lv, Y. Dong, D. Song, Y. Shen, Y. Shi, M. Zhang, L. Rong, B. Chen, K. Liu, X. He, J. Li, M. He, F. Yang, L. Chai, Z. Xu, L. Kong, L.J. Cao, Y.J. Zhang, S.Q. Dong, X.Z. Li, X.T. Tong, D. Chen, Z.Y. Wu, X.H. Zheng, W.Q. Xue, W.H. Jia, M. Qin, F. Han, J. Wu, F.X. Gao, D.X. Yan, X.M. He, Y. Long, X.P. Tang, D.L. Ren, F. He, H. Xiao, Y. Cai, A. Swoboda, R. Soukup, O. Eckel, K. Kinslechner, B. Wingelhofer, D. Schorghofer, C. Sternberg, H.T.T. Pham, M. Vallianou, J. Horvath, G. Ambrosini, C. Do, B. Tycko, R.B. Realubit, C. Karan, E. Musi, R.D. Carvajal, V. Chua, A.E. Aplin, G.K. Schwartz, A. Nachiyappan, J.L.J. Soon, H.J. Lim, V.K. Lee, R. Taneja, C. Lai, L.F. Shen, R.R. Zhou, Y.Y. Zhang, P. Rajbhandari, G. Lopez, C. Capdevila, B. Salvatori, J. Yu, R. Rodriguez-Barrueco, D. Martinez, M. Yarmarkovich, N. Weichert-Leahey, B.J. Abraham, Z.Y. Hua, J.N. Hansen, S.K. Dai, Y. Choi, M.D. Fulton, S.M. Lloyd, M. Szemes, J. Sen, H.F. Ding, J.D. Gardiner, L.M. Abegglen, X. Huang, B.E. Carter, E.A. Schackmann, M. Stucki, C.N. Paxton, R. Lor Randall, J.F. Amatruda, A.R. Putnam, Y.H. Wang, H.Y. Huang, W.M. Li, B.W. Yeh, T.F. Wu, Y.L. Shiue, J.J. Sheu, C.F. Li, Y.Y. Chu, C.J. Yen, T.C. Chan, C.H. Hsing, S.K. Huang, K.L. Hsieh, Y.H. Kuo, M.V. Yusenko, A. Trentmann, D.A. Casolari, L. Abdel Ghani, M. Lenz, M. Horn, W. Dorner, S. Klempnauer, H.D. Mootz, M.F. Arteaga, K.H. Klempnauer, D. Frank, R. Moorthy, J.C. Widen, C. 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
๐Ÿ“„ PDF DOI: 10.3390/cells12040581
amino-acid review

Global metabolic alterations in colorectal cancer cells during irinotecan-induced DNA replication stress

T Marx, J Yang, S Zhou +216 more ยท 2022 ยท Cancer & Metabolism ยท BioMed Central ยท added 2026-04-20
T Marx, J Yang, S Zhou, Y Wang, Y Li, X Tong, F Guerra, AA Arbini, L Moro, M Huttemann, I Lee, LI Grossman, JW Doan, TH Sanderson, R Diaz-Ruiz, M Rigoulet, A Devin, WH Koppenol, PL Bounds, CV Dang, E Gottlieb, KH Vousden, OD Maddocks, D Hanahan, RA Weinberg, NP Echeverri Ruiz, V Mohan, J Wu, S Scott, M Kreamer, M Benej, T Golias, I Papandreou, NC Denko, MA Desbats, I Giacomini, T Prayer-Galetti, M Montopoli, CS Ahn, CM Metallo, VC Fogg, NJ Lanning, JP Mackeigan, YK Shin, BC Yoo, YS Hong, HJ Chang, KH Jung, SY Jeong, JG Park, MM Schroll, GJ LaBonia, KR Ludwig, AB Hummon, RL Siegel, KD Miller, A Goding Sauer, SA Fedewa, LF Butterly, JC Anderson, A Cercek, RA Smith, A Jemal, S Brandhorst, VD Longo, A Nencioni, I Caffa, S Cortellino, Y Liang, J Liu, Z Feng, CR Berkers, SM Mason, L Zheng, K Blyth, F Yang, SS Teves, CJ Kemp, S Henikoff, K Fujita, Y Kubota, H Ishida, Y Sasaki, A Signes, E Fernandez-Vizarra, Y Chaban, EJ Boekema, NV Dudkina, C Maletzki, S Stier, U Gruenert, M Gock, C Ostwald, F Prall, M Linnebacher, K Prabst, H Engelhardt, S Ringgeler, H Hubner, AV Kudryavtseva, GS Krasnov, AA Dmitriev, BY Alekseev, OL Kardymon, AF Sadritdinova, MS Fedorova, AV Pokrovsky, NV Melnikova, AD Kaprin, M Skrtic, S Sriskanthadevan, B Jhas, M Gebbia, X Wang, Z Wang, R Hurren, Y Jitkova, M Gronda, N Maclean, Y Chen, E McMillan-Ward, J Kong, SJ Israels, SB Gibson, AC Little, I Kovalenko, LE Goo, HS Hong, SA Kerk, JA Yates, V Purohit, DB Lombard, SD Merajver, CA Lyssiotis, C Bailly, SA Huisman, P de Bruijn, IM Ghobadi Moghaddam-Helmantel, CF Labuschagne, NJ van den Broek, GM Mackay, EF Fang, H Kassahun, DL Croteau, M Scheibye-Knudsen, K Marosi, H Lu, RA Shamanna, S Kalyanasundaram, RC Bollineni, MA Wilson, KF Chua, MP Mattson, VA Bohr, MO Turgeon, NJS Perry, G Poulogiannis, Y Rai, R Pathak, N Kumari, DK Sah, S Pandey, N Kalra, R Soni, BS Dwarakanath, AN Bhatt, JE Hutton, LJ Zimmerman, RJ Slebos, IA Trenary, JD Young, M Li, DC Liebler, M Tabuso, M Christian, PK Kimani, K Gopalakrishnan, RP Arasaradnam, BJ Altman, ZE Stine, J Yun, C Rago, I Cheong, R Pagliarini, P Angenendt, H Rajagopalan, K Schmidt, JK Willson, S Markowitz, G Giachin, R Bouverot, S Acajjaoui, S Pantalone, M Soler-Lopez, C Gorrini, IS Harris, TW Mak, S Vogt, A Rhiel, P Weber, R Ramzan, BB Das, A Ghosh, S Bhattacharjee, A Bhattacharyya, Y Pommier, E Leo, H Zhang, C Marchand, TM Ashton, WG McKenna, LA Kunz-Schughart, GS Higgins, A Bansal, MC Simon, L Marx-Blumel, C Marx, M Kuhne, J Sonnemann Show less
Background Metabolic adaptations can allow cancer cells to survive DNA-damaging chemotherapy. This unmet clinical challenge is a potential vulnerability of cancer. Accordingly, there is an intense se Show more
Background Metabolic adaptations can allow cancer cells to survive DNA-damaging chemotherapy. This unmet clinical challenge is a potential vulnerability of cancer. Accordingly, there is an intense search for mechanisms that modulate cell metabolism during anti-tumor therapy. We set out to define how colorectal cancer CRC cells alter their metabolism upon DNA replication stress and whether this provides opportunities to eliminate such cells more efficiently. Methods We incubated p53-positive and p53-negative permanent CRC cells and short-term cultured primary CRC cells with the topoisomerase-1 inhibitor irinotecan and other drugs that cause DNA replication stress and consequently DNA damage. We analyzed pro-apoptotic mitochondrial membrane depolarization and cell death with flow cytometry. We evaluated cellular metabolism with immunoblotting of electron transport chain (ETC) complex subunits, analysis of mitochondrial mRNA expression by qPCR, MTT assay, measurements of oxygen consumption and reactive oxygen species (ROS), and metabolic flux analysis with the Seahorse platform. Global metabolic alterations were assessed using targeted mass spectrometric analysis of extra- and intracellular metabolites. Results Chemotherapeutics that cause DNA replication stress induce metabolic changes in p53-positive and p53-negative CRC cells. Irinotecan enhances glycolysis, oxygen consumption, mitochondrial ETC activation, and ROS production in CRC cells. This is connected to increased levels of electron transport chain complexes involving mitochondrial translation. Mass spectrometric analysis reveals global metabolic adaptations of CRC cells to irinotecan, including the glycolysis, tricarboxylic acid cycle, and pentose phosphate pathways. P53-proficient CRC cells, however, have a more active metabolism upon DNA replication stress than their p53-deficient counterparts. This metabolic switch is a vulnerability of p53-positive cells to irinotecan-induced apoptosis under glucose-restricted conditions. Conclusion Drugs that cause DNA replication stress increase the metabolism of CRC cells. Glucose restriction might improve the effectiveness of classical chemotherapy against p53-positive CRC cells. Graphical Abstract The topoisomerase-1 inhibitor irinotecan and other chemotherapeutics that cause DNA damage induce metabolic adaptations in colorectal cancer (CRC) cells irrespective of their p53 status. Irinotecan enhances the glycolysis and oxygen consumption in CRC cells to deliver energy and biomolecules necessary for DNA repair and their survival. Compared to p53-deficient cells, p53-proficient CRC cells have a more active metabolism and use their intracellular metabolites more extensively. This metabolic switch creates a vulnerability to chemotherapy under glucose-restricted conditions for p53-positive cells. Supplementary Information The online version contains supplementary material available at 10.1186/s40170-022-00286-9. Show less
๐Ÿ“„ PDF DOI: 10.1186/s40170-022-00286-9
DNA-binding ROS mitochondria