A dominant-negative effect drives selection of <i>TP53</i> missense mutations in myeloid malignancies

Steffen Boettcher; Peter G. Miller; Rohan Sharma; Marie McConkey; Matthew Leventhal; Andrei V. Krivtsov; Andrew O. Giacomelli; Waihay J. Wong; Jesi Kim; Sherry Chao; Kari J. Kurppa; Xiaoping Yang; Kirsten Milenkowic; Federica Piccioni; David E. Root; Frank G. Rücker; Yael Flamand; Donna Neuberg; R. Coleman Lindsley; Pasi A. Jänne; William C. Hahn; Tyler Jacks; Hartmut Döhner; Scott A. Armstrong; Benjamin L. Ebert

doi:10.1126/science.aax3649

A dominant-negative effect drives selection of <i>TP53</i> missense mutations in myeloid malignancies

Steffen Boettcher(Broad Institute), Peter G. Miller(Broad Institute), Rohan Sharma(Broad Institute), Marie McConkey(Broad Institute), Matthew Leventhal(Broad Institute), Andrei V. Krivtsov(Dana-Farber Cancer Institute), Andrew O. Giacomelli(Broad Institute), Waihay J. Wong(Broad Institute), Jesi Kim(Brigham and Women's Hospital), Sherry Chao(Broad Institute), Kari J. Kurppa(Dana-Farber Cancer Institute), Xiaoping Yang(Broad Institute), Kirsten Milenkowic(Broad Institute), Federica Piccioni(Broad Institute), David E. Root(Broad Institute), Frank G. Rücker(Universität Ulm), Yael Flamand(Dana-Farber Cancer Institute), Donna Neuberg(Dana-Farber Cancer Institute), R. Coleman Lindsley(Broad Institute), Pasi A. Jänne(Dana-Farber Cancer Institute), William C. Hahn(Broad Institute), Tyler Jacks(Howard Hughes Medical Institute), Hartmut Döhner(Universität Ulm), Scott A. Armstrong(Dana-Farber Cancer Institute), Benjamin L. Ebert(Broad Institute)

Science

August 8, 2019

10.1126/science.aax3649

Cited by 429Open Access

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Abstract

p53—still hazy after all these years? The gene encoding the p53 tumor suppressor protein is the most frequently mutated gene in human cancer. Yet decades after the gene's discovery, the biology of cancer-associated missense mutations in p53 is still being debated. Previous studies have suggested that missense mutations confer tumor-promoting functions to p53. Boettcher et al. conducted a detailed analysis of p53 missense mutations in human leukemia, drawing on methodologies including genome editing, a p53 saturation mutagenesis screen, mouse models, and clinical data (see the Perspective by Lane). They found no evidence that p53 missense mutations confer an oncogenic gain of function. Rather, the mutations exerted a dominant-negative effect that reduced the tumor suppressor activity of wild-type p53. Science , this issue p. 599 ; see also p. 539

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