Author:
Aubrey Brandon J.,Janic Ana,Chen Yunshun,Chang Catherine,Lieschke Elizabeth C.,Diepstraten Sarah T.,Kueh Andrew J.,Bernardini Jonathan P.,Dewson Grant,O'Reilly Lorraine A.,Whitehead Lachlan,Voss Anne K.,Smyth Gordon K.,Strasser Andreas,Kelly Gemma L.
Abstract
Mutations in Trp53, prevalent in human cancer, are reported to drive tumorigenesis through dominant-negative effects (DNEs) over wild-type TRP53 function as well as neomorphic gain-of-function (GOF) activity. We show that five TRP53 mutants do not accelerate lymphomagenesis on a TRP53-deficient background but strongly synergize with c-MYC overexpression in a manner that distinguishes the hot spot Trp53 mutations. RNA sequencing revealed that the mutant TRP53 DNE does not globally repress wild-type TRP53 function but disproportionately impacts a subset of wild-type TRP53 target genes. Accordingly, TRP53 mutant proteins impair pathways for DNA repair, proliferation, and metabolism in premalignant cells. This reveals that, in our studies of lymphomagenesis, mutant TRP53 drives tumorigenesis primarily through the DNE, which modulates wild-type TRP53 function in a manner advantageous for neoplastic transformation.
Funder
Leukaemia Foundation
National Health and Medical Research Council
NHMRC
Leukemia and Lymphoma Society of America Specialized Center of Research
Cancer Council Victoria
Victorian Cancer Agency
Leukemia Foundation
Anthony Redstone Estate
Craig Perkins Cancer Research Foundation
Victorian State Government Operational Infrastructure Support
Australian Government National Health and Medical Research Council Independent Research Institutes Infrastructure Support Scheme
Publisher
Cold Spring Harbor Laboratory
Subject
Developmental Biology,Genetics
Cited by
33 articles.
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