PTEN tumor suppressor is frequently mutated in human cancers and is a negative regulator of PI3'K/PKB/Akt-dependent cellular survival. Investigation of the human genomic PTEN locus revealed a p53 binding element directly upstream of the PTEN gene. Deletion and mutation analyses showed that this element is necessary for inducible transactivation of PTEN by p53. A p53-independent element controlling constitutive expression of PTEN was also identified. In contrast to p53 mutant cell lines, induction of p53 in primary and tumor cell lines with wild-type p53 increased PTEN mRNA levels. PTEN was required for p53-mediated apoptosis in immortalized mouse embryonic fibroblasts. Our results reveal a unique role for p53 in regulation of cellular survival and an interesting connection in tumor suppressor signaling.
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.
The p53 tumour suppressor promotes cell-cycle arrest or apoptosis in response to cellular stress, such as DNA damage and oncogenesis. This role of p53 is important for its tumour-suppression function and depends, at least in part, on its ability to bind to specific DNA sequences and activate the transcription of target genes. The pathway through which p53 promotes apoptosis is not fully understood. Here we describe a new gene regulated by p53 that encodes a predicted protein of 915 amino acids in mice (910 amino acids in humans), which we have named Pidd. The mouse Pidd cDNA contains a p53 consensus DNA binding sequence upstream of the Pidd-coding region. This sequence element bound to p53 and conferred p53-dependent inducibility on a heterologous reporter gene. Moreover, Pidd RNA was induced by ionizing radiation in a p53-dependent manner and the basal level of Pidd RNA was dependent on Trp53 status. Overexpression of Pidd inhibited cell growth in a p53-like manner by inducing apoptosis. Antisense inhibition of Pidd expression attenuated p53-mediated apoptosis. Our data suggest that Pidd is an effector of p53-dependent apoptosis.
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