- Main
Divergent clonal selection dominates medulloblastoma at recurrence
- Morrissy, A Sorana;
- Garzia, Livia;
- Shih, David JH;
- Zuyderduyn, Scott;
- Huang, Xi;
- Skowron, Patryk;
- Remke, Marc;
- Cavalli, Florence MG;
- Ramaswamy, Vijay;
- Lindsay, Patricia E;
- Jelveh, Salomeh;
- Donovan, Laura K;
- Wang, Xin;
- Luu, Betty;
- Zayne, Kory;
- Li, Yisu;
- Mayoh, Chelsea;
- Thiessen, Nina;
- Mercier, Eloi;
- Mungall, Karen L;
- Ma, Yusanne;
- Tse, Kane;
- Zeng, Thomas;
- Shumansky, Karey;
- Roth, Andrew JL;
- Shah, Sohrab;
- Farooq, Hamza;
- Kijima, Noriyuki;
- Holgado, Borja L;
- Lee, John JY;
- Matan-Lithwick, Stuart;
- Liu, Jessica;
- Mack, Stephen C;
- Manno, Alex;
- Michealraj, KA;
- Nor, Carolina;
- Peacock, John;
- Qin, Lei;
- Reimand, Juri;
- Rolider, Adi;
- Thompson, Yuan Y;
- Wu, Xiaochong;
- Pugh, Trevor;
- Ally, Adrian;
- Bilenky, Mikhail;
- Butterfield, Yaron SN;
- Carlsen, Rebecca;
- Cheng, Young;
- Chuah, Eric;
- Corbett, Richard D;
- Dhalla, Noreen;
- He, An;
- Lee, Darlene;
- Li, Haiyan I;
- Long, William;
- Mayo, Michael;
- Plettner, Patrick;
- Qian, Jenny Q;
- Schein, Jacqueline E;
- Tam, Angela;
- Wong, Tina;
- Birol, Inanc;
- Zhao, Yongjun;
- Faria, Claudia C;
- Pimentel, José;
- Nunes, Sofia;
- Shalaby, Tarek;
- Grotzer, Michael;
- Pollack, Ian F;
- Hamilton, Ronald L;
- Li, Xiao-Nan;
- Bendel, Anne E;
- Fults, Daniel W;
- Walter, Andrew W;
- Kumabe, Toshihiro;
- Tominaga, Teiji;
- Collins, V Peter;
- Cho, Yoon-Jae;
- Hoffman, Caitlin;
- Lyden, David;
- Wisoff, Jeffrey H;
- Garvin, James H;
- Stearns, Duncan S;
- Massimi, Luca;
- Schüller, Ulrich;
- Sterba, Jaroslav;
- Zitterbart, Karel;
- Puget, Stephanie;
- Ayrault, Olivier;
- Dunn, Sandra E;
- Tirapelli, Daniela PC;
- Carlotti, Carlos G;
- Wheeler, Helen;
- Hallahan, Andrew R;
- Ingram, Wendy;
- MacDonald, Tobey J;
- Olson, Jeffrey J;
- Van Meir, Erwin G;
- Lee, Ji-Yeoun;
- Wang, Kyu-Chang;
- Kim, Seung-Ki;
- Cho, Byung-Kyu;
- Pietsch, Torsten;
- Fleischhack, Gudrun;
- Tippelt, Stephan;
- Ra, Young Shin;
- Bailey, Simon;
- Lindsey, Janet C;
- Clifford, Steven C;
- Eberhart, Charles G;
- Cooper, Michael K;
- Packer, Roger J;
- Massimino, Maura;
- Garre, Maria Luisa;
- Bartels, Ute;
- Tabori, Uri;
- Hawkins, Cynthia E;
- Dirks, Peter;
- Bouffet, Eric;
- Rutka, James T;
- Wechsler-Reya, Robert J;
- Weiss, William A;
- Collier, Lara S;
- Dupuy, Adam J;
- Korshunov, Andrey;
- Jones, David TW;
- Kool, Marcel;
- Northcott, Paul A;
- Pfister, Stefan M;
- Largaespada, David A;
- Mungall, Andrew J;
- Moore, Richard A;
- Jabado, Nada;
- Bader, Gary D;
- Jones, Steven JM;
- Malkin, David;
- Marra, Marco A;
- Taylor, Michael D
- et al.
Published Web Location
https://doi.org/10.1038/nature16478Abstract
The development of targeted anti-cancer therapies through the study of cancer genomes is intended to increase survival rates and decrease treatment-related toxicity. We treated a transposon-driven, functional genomic mouse model of medulloblastoma with 'humanized' in vivo therapy (microneurosurgical tumour resection followed by multi-fractionated, image-guided radiotherapy). Genetic events in recurrent murine medulloblastoma exhibit a very poor overlap with those in matched murine diagnostic samples (<5%). Whole-genome sequencing of 33 pairs of human diagnostic and post-therapy medulloblastomas demonstrated substantial genetic divergence of the dominant clone after therapy (<12% diagnostic events were retained at recurrence). In both mice and humans, the dominant clone at recurrence arose through clonal selection of a pre-existing minor clone present at diagnosis. Targeted therapy is unlikely to be effective in the absence of the target, therefore our results offer a simple, proximal, and remediable explanation for the failure of prior clinical trials of targeted therapy.
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