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Mutant TRP53 exerts a target gene-selective dominant-negative effect to drive tumor development.

Genes & development (2018-10-28)
Brandon J Aubrey, Ana Janic, Yunshun Chen, Catherine Chang, Elizabeth C Lieschke, Sarah T Diepstraten, Andrew J Kueh, Jonathan P Bernardini, Grant Dewson, Lorraine A O'Reilly, Lachlan Whitehead, Anne K Voss, Gordon K Smyth, Andreas Strasser, Gemma L Kelly
RESUMEN

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.

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Sigma-Aldrich
Neomycin trisulfate salt hydrate, powder
Sigma-Aldrich
Anti-fosfohistona H2A.X (Ser139), clon JBW301, Alexa Fluor 647, clone JBW301, 0.5 mg/mL, from mouse