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  • Dominant-negative but not gain-of-function effects of a p53.R270H mutation in mouse epithelium tissue after DNA damage

Dominant-negative but not gain-of-function effects of a p53.R270H mutation in mouse epithelium tissue after DNA damage

Jos Jonkers ,
Susan W P Wijnhoven ,
Ewoud N Speksnijder ,
Xiaoling Liu ,
Edwin Zwart ,
Conny Th M vanOostrom ,
Rudolf B Beems ,
Esther M Hoogervorst ,
Mirjam M Schaap ,
Laura D Attardi ,
Tyler Jacks ,
Harry van Steeg ,
Jos Jonkers ,
Annemieke de Vries.

Jos Jonkers

Abstract

p53 alterations in human tumors often involve missense mutations that may confer dominant-negative or gain-of-function properties. Dominant-negative effects result in inactivation of wild-type p53 protein in heterozygous mutant cells and as such in a p53 null phenotype. Gain-of-function effects can directly promote tumor development or metastasis through antiapoptotic mechanisms or transcriptional activation of (onco)genes. Here, we show, using conditional mouse technology, that epithelium-specific heterozygous expression of mutant p53 (i.e., the p53.R270H mutation that is equivalent to the human hotspot R273H) results in an increased incidence of spontaneous and UVB-induced skin tumors. Expression of p53.R270H exerted dominant-negative effects on latency, multiplicity, and progression status of UVB-induced but not spontaneous tumors. Surprisingly, gain-of-function properties of p53.R270H were not detected in skin epithelium. Apparently, dominant-negative and gain-of-function effects of mutant p53 are highly tissue specific and become most manifest upon stabilization of p53 after DNA damage.

More about this publication

Cancer research

Volume 67
Issue nr. 10
Pages 4648-56
Publication date 15-05-2007

Full text links

Pubmed https://pubmed.ncbi.nlm.nih.gov/17510390/

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