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RET Solvent Front Mutations Mediate Acquired Resistance to Selective RET Inhibition in RET-Driven Malignancies.
Solomon, Benjamin J; Tan, Lavinia; Lin, Jessica J; Wong, Stephen Q; Hollizeck, Sebastian; Ebata, Kevin; Tuch, Brian B; Yoda, Satoshi; Gainor, Justin F; Sequist, Lecia V; Oxnard, Geoffrey R; Gautschi, Oliver; Drilon, Alexander; Subbiah, Vivek; Khoo, Christine; Zhu, Edward Y; Nguyen, Michele; Henry, Dahlia; Condroski, Kevin R; Kolakowski, Gabrielle R; Gomez, Eliana; Ballard, Joshua; Metcalf, Andrew T; Blake, James F; Dawson, Sarah-Jane; Blosser, Wayne; Stancato, Louis F; Brandhuber, Barbara J; Andrews, Steve; Robinson, Bruce G; Rothenberg, S Michael.
Afiliación
  • Solomon BJ; Peter MacCallum Cancer Centre and the University of Melbourne, Melbourne, Australia. Electronic address: ben.solomon@petermac.org.
  • Tan L; Peter MacCallum Cancer Centre and the University of Melbourne, Melbourne, Australia.
  • Lin JJ; Massachusetts General Hospital Cancer Center, Boston, Massachusetts.
  • Wong SQ; Peter MacCallum Cancer Centre and the University of Melbourne, Melbourne, Australia.
  • Hollizeck S; Peter MacCallum Cancer Centre and the University of Melbourne, Melbourne, Australia.
  • Ebata K; Loxo Oncology, Inc., Stamford, Connecticut.
  • Tuch BB; Loxo Oncology, Inc., Stamford, Connecticut.
  • Yoda S; Massachusetts General Hospital Cancer Center, Boston, Massachusetts.
  • Gainor JF; Massachusetts General Hospital Cancer Center, Boston, Massachusetts.
  • Sequist LV; Massachusetts General Hospital Cancer Center, Boston, Massachusetts.
  • Oxnard GR; Dana Farber Cancer Institute, Boston, Massachusetts.
  • Gautschi O; Luzerner Kantonsspital, Luzern, Switzerland.
  • Drilon A; Memorial Sloan Kettering Cancer Center, New York, New York.
  • Subbiah V; University of Texas MD Anderson Cancer Center, Houston, Texas.
  • Khoo C; Peter MacCallum Cancer Centre and the University of Melbourne, Melbourne, Australia.
  • Zhu EY; Loxo Oncology, Inc., Stamford, Connecticut.
  • Nguyen M; Loxo Oncology, Inc., Stamford, Connecticut.
  • Henry D; Loxo Oncology, Inc., Stamford, Connecticut.
  • Condroski KR; Loxo Oncology, Inc., Stamford, Connecticut.
  • Kolakowski GR; Loxo Oncology, Inc., Stamford, Connecticut.
  • Gomez E; Loxo Oncology, Inc., Stamford, Connecticut.
  • Ballard J; Loxo Oncology, Inc., Stamford, Connecticut.
  • Metcalf AT; Loxo Oncology, Inc., Stamford, Connecticut.
  • Blake JF; Array BioPharma, Boulder, Colorado.
  • Dawson SJ; Peter MacCallum Cancer Centre and the University of Melbourne, Melbourne, Australia.
  • Blosser W; Eli Lilly & Company, Indianapolis, Indiana.
  • Stancato LF; Eli Lilly & Company, Indianapolis, Indiana.
  • Brandhuber BJ; Loxo Oncology, Inc., Stamford, Connecticut.
  • Andrews S; Loxo Oncology, Inc., Stamford, Connecticut.
  • Robinson BG; Kolling Institute of Endocrinology, Royal North Shore Hospital, and the University of Sydney, Sydney, Australia.
  • Rothenberg SM; Loxo Oncology, Inc., Stamford, Connecticut.
J Thorac Oncol ; 15(4): 541-549, 2020 04.
Article en En | MEDLINE | ID: mdl-31988000
INTRODUCTION: Novel rearranged in transfection (RET)-specific tyrosine kinase inhibitors (TKIs) such as selpercatinib (LOXO-292) have shown unprecedented efficacy in tumors positive for RET fusions or mutations, notably RET fusion-positive NSCLC and RET-mutated medullary thyroid cancer (MTC). However, the mechanisms of resistance to these agents have not yet been described. METHODS: Analysis was performed of circulating tumor DNA and tissue in patients with RET fusion-positive NSCLC and RET-mutation positive MTC who developed disease progression after an initial response to selpercatinib. Acquired resistance was modeled preclinically using a CCDC6-RET fusion-positive NSCLC patient-derived xenograft. The inhibitory activity of anti-RET multikinase inhibitors and selective RET TKIs was evaluated in enzyme and cell-based assays. RESULTS: After a dramatic initial response to selpercatinib in a patient with KIF5B-RET NSCLC, analysis of circulating tumor DNA revealed emergence of RET G810R, G810S, and G810C mutations in the RET solvent front before the emergence of clinical resistance. Postmortem biopsy studies reported intratumor and intertumor heterogeneity with distinct disease subclones containing G810S, G810R, and G810C mutations in multiple disease sites indicative of convergent evolution on the G810 residue resulting in a common mechanism of resistance. Acquired mutations in RET G810 were identified in tumor tissue from a second patient with CCDC6-RET fusion-positive NSCLC and in plasma from patients with additional RET fusion-positive NSCLC and RET-mutant MTC progressing on an ongoing phase 1 and 2 trial of selpercatinib. Preclinical studies reported the presence of RET G810R mutations in a CCDC6-RET patient-derived xenograft (from a patient with NSCLC) model of acquired resistance to selpercatinib. Structural modeling predicted that these mutations sterically hinder the binding of selpercatinib, and in vitro assays confirmed loss of activity for both anti-RET multikinase inhibitors and selective RET TKIs. CONCLUSIONS: RET G810 solvent front mutations represent the first described recurrent mechanism of resistance to selective RET inhibition with selpercatinib. Development of potent inhibitor of these mutations and maintaining activity against RET gatekeeper mutations could be an effective strategy to target resistance to selective RET inhibitors.
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Texto completo: 1 Banco de datos: MEDLINE Asunto principal: Proteínas Proto-Oncogénicas c-ret / Neoplasias Pulmonares Tipo de estudio: Prognostic_studies Límite: Humans Idioma: En Revista: J Thorac Oncol Año: 2020 Tipo del documento: Article

Texto completo: 1 Banco de datos: MEDLINE Asunto principal: Proteínas Proto-Oncogénicas c-ret / Neoplasias Pulmonares Tipo de estudio: Prognostic_studies Límite: Humans Idioma: En Revista: J Thorac Oncol Año: 2020 Tipo del documento: Article