Weili Ma scite author profile

The p53 tumor suppressor exerts anti-proliferative effects in response to various types of stress including DNA damage and abnormal proliferative signals. Tight regulation of p53 is essential for maintaining normal cell growth and this occurs primarily through posttranslational modifications of p53. Here, we describe Pirh2, a gene regulated by p53 that encodes a RING-H2 domain-containing protein with intrinsic ubiquitin-protein ligase activity. Pirh2 physically interacts with p53 and promotes ubiquitination of p53 independently of Mdm2. Expression of Pirh2 decreases the level of p53 protein and abrogation of endogenous Pirh2 expression increases the level of p53. Furthermore, Pirh2 represses p53 functions including p53-dependent transactivation and growth inhibition. We propose that Pirh2 is involved in the negative regulation of p53 function through physical interaction and ubiquitin-mediated proteolysis. Hence, Pirh2, like Mdm2, participates in an autoregulatory feedback loop that controls p53 function.

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p53-Dependent Transcriptional Repression of c-myc Is Required for G₁ Cell Cycle Arrest

Mao

et al. 2005

Molecular and Cellular Biology

264

204

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The ability of p53 to promote apoptosis and cell cycle arrest is believed to be important for its tumor suppression function. Besides activating the expression of cell cycle arrest and proapoptotic genes, p53 also represses a number of genes. Previous studies have shown an association between p53 activation and downregulation of c-myc expression. However, the mechanism and physiological significance of p53-mediated c-myc repression remain unclear. Here, we show that c-myc is repressed in a p53-dependent manner in various mouse and human cell lines and mouse tissues. Furthermore, c-myc repression is not dependent on the expression of p21 WAF1 . Abrogating the repression of c-myc by ectopic c-myc expression interferes with the ability of p53 to induce G 1 cell cycle arrest and differentiation but enhances the ability of p53 to promote apoptosis. We propose that p53-dependent cell cycle arrest is dependent not only on the transactivation of cell cycle arrest genes but also on the transrepression of c-myc. Chromatin immunoprecipitation assays indicate that p53 is bound to the c-myc promoter in vivo. We report that trichostatin A, an inhibitor of histone deacetylases, abrogates the ability of p53 to repress c-myc transcription. We also show that p53-mediated transcriptional repression of c-myc is accompanied by a decrease in the level of acetylated histone H4 at the c-myc promoter and by recruitment of the corepressor mSin3a. These data suggest that p53 represses c-myc transcription through a mechanism that involves histone deacetylation.

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Weili Ma

Pirh2, a p53-Induced Ubiquitin-Protein Ligase, Promotes p53 Degradation

p53-Dependent Transcriptional Repression of c-myc Is Required for G₁ Cell Cycle Arrest

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Weili Ma

Pirh2, a p53-Induced Ubiquitin-Protein Ligase, Promotes p53 Degradation

p53-Dependent Transcriptional Repression of c-myc Is Required for G1 Cell Cycle Arrest

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p53-Dependent Transcriptional Repression of c-myc Is Required for G₁ Cell Cycle Arrest