A critical function of tumor suppressor p53 is the induction of apoptosis in cells exposed to noxious stresses. We report a previously unidentified pro-apoptotic gene, Noxa. Expression of Noxa induction in primary mouse cells exposed to x-ray irradiation was dependent on p53. Noxa encodes a Bcl-2 homology 3 (BH3)-only member of the Bcl-2 family of proteins; this member contains the BH3 region but not other BH domains. When ectopically expressed, Noxa underwent BH3 motif-dependent localization to mitochondria and interacted with anti-apoptotic Bcl-2 family members, resulting in the activation of caspase-9. We also demonstrate that blocking the endogenous Noxa induction results in the suppression of apoptosis. Noxa may thus represent a mediator of p53-dependent apoptosis.
p53 And Akt are critical players regulating tumorigenesis with opposite effects: whereas p53 transactivates target genes to exert its function as a tumor suppressor, Akt phosphorylates its substrates and transduces downstream survival signals. In addition, p53 and Akt negatively regulate each other to balance survival and death signals within a cell. We now identify PHLDA3 as a p53 target gene that encodes a PH domain-only protein. We find that PHLDA3 competes with the PH domain of Akt for binding of membrane lipids, thereby inhibiting Akt translocation to the cellular membrane and activation. Ablation of endogenous PHLDA3 results in enhanced Akt activity and decrease of p53-dependent apoptosis. We also demonstrate the suppression of anchorage-independent cell growth by PHLDA3. Loss of the PHLDA3 genomic locus was frequently observed in primary lung cancers, suggesting a role of PHLDA3 in tumor suppression. Our results reveal a new mode of coordination between the p53 and Akt pathways.
A novel gene, Reprimo, in which induction in cells exposed to X-irradiation is dependent on p53 expression, has been isolated. Ectopic p53 expression results in the induction of its mRNA. Reprimo is a highly glycosylated protein and, when ectopically expressed, it is localized in the cytoplasm and induces G 2 arrest of the cell cycle. In the arrested cells, both Cdc2 activity and nuclear translocation of cyclin B1 are inhibited, suggesting the involvement of Reprimo in the Cdc2⅐cyclin B1 regulation pathway. Thus, Reprimo may be a new member involved in the regulation of p53-dependent G 2 arrest of the cell cycle.
The molecular mechanisms underlying the development of pancreatic neuroendocrine tumors (PanNETs) have not been well defined. We report here that the genomic region of the PHLDA3 gene undergoes loss of heterozygosity (LOH) at a remarkably high frequency in human PanNETs, and this genetic change is correlated with disease progression and poor prognosis. We also show that the PHLDA3 locus undergoes methylation in addition to LOH, suggesting that a two-hit inactivation of the PHLDA3 gene is required for PanNET development. We demonstrate that PHLDA3 represses Akt activity and Akt-regulated biological processes in pancreatic endocrine tissues, and that PHLDA3-deficient mice develop islet hyperplasia. In addition, we show that the tumor-suppressing pathway mediated by MEN1, a well-known tumor suppressor of PanNETs, is dependent on the pathway mediated by PHLDA3, and inactivation of PHLDA3 and MEN1 cooperatively contribute to PanNET development. Collectively, these results indicate the existence of a novel PHLDA3-mediated pathway of tumor suppression that is important in the development of PanNETs.p53 | PH domain | everolimus | p53 target gene | mTOR N euroendocrine tumors (NETs) arise from cells of the endocrine and nervous systems, and are found in tissues such as lung, pancreas and pituitary (1-3). NETs often produce, store and release biogenic amines and polypeptide hormones, and secretary granules containing these products provide a diagnostic marker for NETs. The mechanisms underlying the development of NETs remain unclear to date, due to the low incidence of these tumors and due to the lack of suitable experimental model systems, including genetically engineered mouse models. Pancreatic NET (PanNET), which is probably the best-studied NET, is the second-most common pancreatic tumor, having an incidence of ∼1 per 100,000 individuals. Patients having late-stage PanNET often harbor tumors that are unresectable or metastatic and face limited treatment options. Accordingly, the prognosis of patients having metastatic PanNET is the worst among the NET subtypes, with a 5-y survival rate of 27-43% (1). Recently, the drug Everolimus has shown promise in the treatment of PanNETs (4), providing a significant improvement in progression-free survival. Everolimus is an inhibitor of mammalian target of rapamycin (mTOR), a downstream mediator of the phosphoinositide 3-kinase (PI3K)/protein kinase B (AKT) pathway. The striking efficacy of Everolimus demonstrates the importance of the PI3K/Akt pathway in the pathology of PanNETs.In agreement with these clinical results, studies on pancreatic endocrine cell lines have identified the PI3K/Akt signaling pathway as a major proliferation and survival pathway in these cells (5). Activated Akt phosphorylates substrates such as mTOR and controls various biological processes, including protein synthesis, proliferation, cell growth, and survival. Regulation of pancreatic islet β-cell proliferation, cell size, and apoptosis by Akt has been demonstrated using various mouse models. For examp...
Biochemical analysis of molecular interactions in specific genomic regions requires their isolation while retaining molecular interactions in vivo. Here, we report isolation of telomeres by engineered DNA-binding molecule-mediated chromatin immunoprecipitation (enChIP) using a transcription activator-like (TAL) protein recognizing telomere repeats. Telomeres recognized by the tagged TAL protein were immunoprecipitated with an antibody against the tag and subjected to identification of telomere-binding molecules. enChIP-mass spectrometry (enChIP-MS) targeting telomeres identified known and novel telomere-binding proteins. The data have been deposited to the ProteomeXchange with identifier PXD000461. In addition, we showed that RNA associated with telomeres could be isolated by enChIP. Identified telomere-binding molecules may play important roles in telomere biology. enChIP using TAL proteins would be a useful tool for biochemical analysis of specific genomic regions of interest.
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