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Cancer Therapy Shapes the Fitness Landscape of Clonal Hematopoiesis

Overview
Journal Nat Genet
Specialty Genetics
Date 2020 Oct 27
PMID 33106634
Citations 298
Authors
Kelly L Bolton
Ryan N Ptashkin
Teng Gao
Lior Braunstein
Sean M Devlin
Daniel Kelly
Minal Patel
Antonin Berthon
Aijazuddin Syed
Mariko Yabe
Catherine C Coombs
Nicole M Caltabellotta
Mike Walsh
Kenneth Offit
Zsofia Stadler
Diana Mandelker
Jessica Schulman
Akshar Patel
John Philip
Elsa Bernard
Gunes Gundem
Juan E Arango Ossa
Max Levine
Juan S Medina Martinez
Noushin Farnoud
Dominik Glodzik
Sonya Li
Mark E Robson
Choonsik Lee
Paul D P Pharoah
Konrad H Stopsack
Barbara Spitzer
Simon Mantha
James Fagin
Laura Boucai
Christopher J Gibson
Benjamin L Ebert
Andrew L Young
Todd Druley
Koichi Takahashi
Nancy Gillis
Markus Ball
Eric Padron
David M Hyman
Jose Baselga
Larry Norton
Stuart Gardos
Virginia M Klimek
Howard Scher
Dean Bajorin
Eder Paraiso
Ryma Benayed
Maria E Arcila
Marc Ladanyi
David B Solit
Michael F Berger
Martin Tallman
Montserrat Garcia-Closas
Nilanjan Chatterjee
Luis A Diaz Jr
Ross L Levine
Lindsay M Morton
Ahmet Zehir
Elli Papaemmanuil
Affiliations
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Abstract

Acquired mutations are pervasive across normal tissues. However, understanding of the processes that drive transformation of certain clones to cancer is limited. Here we study this phenomenon in the context of clonal hematopoiesis (CH) and the development of therapy-related myeloid neoplasms (tMNs). We find that mutations are selected differentially based on exposures. Mutations in ASXL1 are enriched in current or former smokers, whereas cancer therapy with radiation, platinum and topoisomerase II inhibitors preferentially selects for mutations in DNA damage response genes (TP53, PPM1D, CHEK2). Sequential sampling provides definitive evidence that DNA damage response clones outcompete other clones when exposed to certain therapies. Among cases in which CH was previously detected, the CH mutation was present at tMN diagnosis. We identify the molecular characteristics of CH that increase risk of tMN. The increasing implementation of clinical sequencing at diagnosis provides an opportunity to identify patients at risk of tMN for prevention strategies.

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