AP2alpha Alters the Transcriptional Activity and Stability of P53

Overview

Journal Oncogene

Specialties Molecular Biology
Oncology

Date 2005 Nov 17

PMID 16288208

Citations 17

Authors

P R Stabach

M M Thiyagarajan

G W Woodfield

R J Weigel

Affiliations

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Abstract

AP2alpha and p53 form nuclear complexes that establish a functional partnership, which regulates the expression of certain genes involved in cell growth and metastasis. The growth effects of AP2alpha are mediated through p21WAF1/CIP1 and the ability for AP2alpha to coactivate p21 requires p53. Herein, we have localized the AP2-binding region of p53 to amino acids 305-375. Analysis of 26 distinct p53 alleles established a correlation between AP2alpha binding and transcriptional coactivation. The L350P point mutation was the only nonbinding allele that retained normal transcriptional activity by reporter assay. Although both wild-type and L350P alleles facilitated binding of AP2alpha to the p21 promoter, the L350P allele was significantly reduced in its ability to induce the endogenous p21 gene, demonstrating a striking difference in activity comparing reporter assays with activation of endogenous p53 target genes. Interestingly, expression of AP2 in the absence of radiation repressed p53-mediated induction of p21 and this effect was explained by a reduction in p53 stability induced by AP2alpha overexpression. We conclude that AP2alpha has competing effects on p53 activity through coactivation and decreased stability. These findings may provide a mechanism to account for the discrepancies reported for the association between AP2 and p21 expression in tumor tissue.

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