AI Article Synopsis
- The ability of DNA damaging agents to trigger apoptosis is influenced by how p53 regulates gene expression, specifically targeting MDM2 during DNA repair and PTEN under persistent damage.
- High dose chemotherapy causes p53 to be phosphorylated at serine 46, allowing it to preferentially target PTEN over MDM2, which affects cell death rates when comparing mutated forms of p53.
- This phosphorylation of p53 alters its target preferences, leading to reduced MDM2 induction, enhanced PTEN expression, and a cycle that collectively promotes apoptosis in response to DNA damage.
Article Abstract
The capacity of DNA damaging agents to induce apoptosis is regulated by target gene induction by p53. We found that p53 targeted MDM2 in cells in which DNA repair was occurring, but persistent DNA damage induced by chemotherapy led p53 to selectively target PTEN. High dose chemotherapy induced the phosphorylation of p53 on serine 46, whereas low dose chemotherapy did not. A nonphosphorylatable serine 46 to alanine p53 mutant (S46A) targeted the MDM2 promoter in preference to that for PTEN. A serine 46 to aspartate mutant (S46D, a phosphorylation mimic) targeted PTEN in preference to MDM2. These observations show that phosphorylation of serine 46 in p53 is sufficient for it to induce the PTEN (phosphatase and tensin homolog deleted on chromosome ten) tumor suppressor protein in preference to MDM2. S46A induced significantly less cell death than the S46D in cells. The phosphorylation-induced change of p53 promoter targeting suppresses the induction of MDM2 and the formation of the autoregulatory feedback loop. Induction of PTEN by p53 followed by expression of PTEN inhibits AKT-induced translocation of MDM2 into the nucleus and sustains p53 function. The protection of p53 from MDM2 by PTEN and the damage-induced activation of PTEN by phosphorylated p53 leads to the formation of an apoptotic amplification cycle in which p53 and PTEN coordinately increase cellular apoptosis.
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| http://dx.doi.org/10.1074/jbc.M503026200 | DOI Listing |
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