UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High-level expression of the DNA repair protein O6-methylguanine-DNA methyltransferase (MGMT) correlates with cellular resistance to the chloroethylnitrosourea (CENU) class of alkylating agents. Consequently, tumors expressing low levels of MGMT are sensitive to CENU chemotherapy, and any mechanism that can be used to reduce MGMT levels could sensitize resistant tumors. We have demonstrated that transient transfection of wild-type, but not mutant, p53 protein into a p53-null cell line, Saos-2, suppresses MGMT promoter activity in a reporter gene system. In addition, following a 24-h transduction of IMR90 fibroblasts with a wild-type p53-adenoviral vector, endogenous MGMT protein is down-regulated and is no longer detectable 5 days following infection. Because p53 is inducible by ionizing radiation, we propose that existing cancer therapy regimens that combine radiotherapy with CENU chemotherapy may be improved by altering scheduling and allowing enough time between the two therapies for the relatively stable MGMT protein to degrade.
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PMID:Wild-type p53 suppresses transcription of the human O6-methylguanine-DNA methyltransferase gene. 861 46

Expression of both the DNA repair protein O6-alkylguanine-DNA-alkyltransferase (ATase) and the p53 tumour suppressor protein are inducible by a number of DNA damaging agents. It is probable that DNA strand breaks are the common inducing signals. This similarity, and the function of p53 as a transcription factor lead us to reason that p53 might be involved in ATase inducibility. We now report that the induction of ATase activity in mouse tissues following gamma-radiation is p53 gene dose dependent. While the extent and kinetics of induction in p53 wildtype mice are consistent with previous reports (a 2-3-fold peak increase at 36 h), no induction is observed in p53 null animals. Importantly the heterozygous mice show an intermediate response but the same kinetics. The basal levels of expression in all tissues examined are unaffected by p53 status. These data represent the first report of a discrete DNA repair function being p53 regulated in vivo and their potential clinical implications are discussed.
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PMID:Induction of murine O6-alkylguanine-DNA-alkyltransferase in response to ionising radiation is p53 gene dose dependent. 863 27

The mechanism which is responsible for the association of chronic hepatitis B virus (HBV) infection with hepatocellular carcinoma (HCC) is poorly understood. The protein encoded by the HBV X-gene (HBx) has been identified as potentially oncogenic. HBx is a promiscuous indirect trans-activator of a wide range of cellular and viral cis-elements and may disrupt the maintenance of genomic integrity by inhibiting p53 function and binding a putative DNA repair protein (XAP-1). In this report, we show that there is preferential binding of recombinant HBx to damaged DNA through an association with nuclear proteins. We have used the transcriptional activation by HBx of the beta-actin promoter of a beta-galactosidase reporter cassette to label cultured Chang liver cells expressing HBx. We demonstrate that cells expressing HBx are sensitised to the lethal effects of low dose ultraviolet irradiation. These data indicate that HBx interferes with liver cell DNA repair by binding damaged DNA and may predispose to the accumulation of potentially lethal or carcinogenic mutations.
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PMID:Hepatitis B virus X-protein binds damaged DNA and sensitizes liver cells to ultraviolet irradiation. 912 43

In tumors, resistance to chemotherapeutic drugs that alkylate the O6 position of guanine correlates with the levels of the DNA repair protein, O6-alkylguanine DNA alkyltransferase (AGT). The expression of AGT gene in human breast tumors was evaluated at the level of the single cell, to better understand the distribution of alkylation resistant cells within the tumor. Compared to normal breast ductal cells, the level of AGT expression in the breast tumor cells increased 2-fold. There was no significant association between AGT expression and tumor grade and metastatic malignancy. The up-regulation of AGT was not directly linked to the expression of cyclins D1 and D3, estrogen receptor, p53 and c-erbB-2, genes involved in cell cycle regulation and tumor growth. The elevated expression of AGT in human breast ductal carcinoma cells appeared to be a general characteristic of breast tumors, and suggests that prior treatment with analogs of O6-alkylguanine that inactivate AGT protein, should render the AGT expressing tumor cells sensitive to drugs that alkylate O6-guanine.
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PMID:Expression of the O6-alkylguanine-DNA alkyltransferase gene is elevated in human breast tumor cells. 949 26

The DNA repair protein O6-methylguanine-DNA methyltransferase (MGMT) is inducible by genotoxic stress. MGMT induction results from transcriptional activation of the MGMT gene which is a specific response to DNA damage. A possible factor involved in triggering MGMT induction might be p53, because both p53 and MGMT are activated by DNA breaks. To study the effect of p53 on induction of the MGMT gene, we compared the presence of functional wild-type (wt) and mutant p53 with MGMT expression level in various mouse fibroblasts and rat hepatoma cell lines upon genotoxic treatment. Cells which responded to ionizing radiation (IR) by MGMT induction displayed functional p53, whereas in cells not expressing wt p53, MGMT induction was not observed. Also, the cloned MGMT promoter was inducible by IR upon transfection into p53 wt cells, but not in cells deficient for p53. Thus, expression of wt p53 appears to be required for induction of MGMT mRNA and protein by IR. On the other hand, transfection of a MGMT-promoter-CAT construct together with p53 (either wt or mutant) in cells expressing wt p53 markedly reduced the basal activity of the MGMT promoter whereas cotransfection with a p53 antisense construct slightly increased MGMT promoter activity. Furthermore, cotransfection of MGMT promoter with wt or mutant p53 in p53 wt cells reduced radiation evoked MGMT promoter induction. Thus, transfection mediated high level expression of p53 has inhibitory effect both on basal MGMT promoter activity and its activation by IR. The results give evidence for involvement of p53 in DNA damage-induced MGMT promoter activation.
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PMID:p53 is involved in regulation of the DNA repair gene O6-methylguanine-DNA methyltransferase (MGMT) by DNA damaging agents. 978 1

Germ-line mutations in the human BRCA2 gene confer susceptibility to breast cancer. Efforts to elucidate its function have revealed a putative transcriptional activation domain and in vitro interaction with the DNA repair protein RAD51. Other studies have indicated that RAD51 physically associates with the p53 tumor suppressor protein. Here we show that the BRCA2 gene product is a 460-kDa nuclear phosphoprotein, which forms in vivo complexes with both p53 and RAD51. Moreover, exogenous BRCA2 expression in cancer cells inhibits p53's transcriptional activity, and RAD51 coexpression enhances BRCA2's inhibitory effects. These findings demonstrate that BRCA2 physically and functionally interacts with two key components of cell cycle control and DNA repair pathways. Thus, BRCA2 likely participates with p53 and RAD51 in maintaining genome integrity.
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PMID:The BRCA2 gene product functionally interacts with p53 and RAD51. 981 93

About half of the familial breast cancer cases are found to bear mutations in the breast cancer susceptibility gene 1 (BRCA1). The majority of BRCA1 mutations produce a truncated protein and BRCA1-associated breast tumors exhibit a number of defined tumor phenotypes. The function of BRCA1 has been examined in gene knockout mice in which the nullizygous mice die early in utero, but this lethality can be partially rescued by a nullizygous p53 mutation. Wild-type BRCA1 protein binds to a number of cellular proteins, including DNA repair protein Rad51, tumor suppressor p53, RNA polymerase II holoenzyme, RNA helicase A, CtBP-interacting protein, c-myc, BRCA1-associated RING domain protein (BARD1), BRCA2 protein, etc. These proteins likely mediate the involvement of BRCA1 in DNA repair, transcriptional transactivation, and cell cycle control. Overall, BRCA1 protein may act as a converging vehicle for cell regulatory proteins to associate with. Therefore, mutations in BRCA1 may affect the composition of these complexes on which dysregulation of cellular functions with eventual development of malignancy is expected.
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PMID:The functions of breast cancer susceptibility gene 1 (BRCA1) product and its associated proteins. 1019 18

The human papilloma virus E6-associated protein (E6AP) functions as a ubiquitin protein ligase (E3) in the E6-mediated ubiquitination of p53. E6AP is also an E3 in the absence of E6, but its normal cellular substrates have not yet been identified. Here we report the identification of HHR23A, one of the human homologues of the yeast DNA repair protein Rad23, as an E6-independent target of E6AP. HHR23A binds E6AP and is ubiquitinated in vitro in an E6AP-dependent manner. Ubiquitinated forms of endogenous HHR23A are detectable in mammalian cells. Overexpression of wild-type E6AP in vivo enhances the ubiquitination of HHR23A, whereas a dominant negative E6AP mutant inhibits HHR23A ubiquitination. Although HHR23A is a stable protein in non-synchronized cells, its levels are regulated in a cell cycle-dependent manner, with specific degradation occurring during S phase. The S phase degradation of HHR23A could be blocked in vivo by dominant negative E6AP, providing direct evidence for the involvement of E6AP in the regulation of HHR23A. Consistent with a role of the HHR23 proteins in DNA repair, UV-induced DNA damage inhibited HHR23A degradation. Although the precise role of HHR23 proteins in DNA repair and cell cycle progression remains to be elucidated, our data suggest that E6AP-mediated ubiquitination of HHR23A may have important implications in DNA repair and cell cycle progression.
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PMID:Identification of HHR23A as a substrate for E6-associated protein-mediated ubiquitination. 1037 95

The present study examined the immunohistochemical expression of human AP endonuclease 1 (HAP1/Ref-1), the major endonuclease in the repair of apurinic/apyrimidinic (AP) sites in cellular DNA, in normal lung and lung carcinomas. Cellular expression of HAP1 was determined using a standard avidin-biotin-peroxidase complex (ABC) technique and an anti-HAP1 rabbit polyclonal antibody on paraffin-embedded tissue sections from normal lung and in 103 primary non-small cell lung carcinomas (NSCLCs). In normal lung, the staining for HAP1 was found to be both nuclear and cytoplasmic in the pneumocytes of the alveoli. Superficial ciliated cells of the bronchial epithelium presented cytoplasmic staining, while staining for the basal cells was mostly nuclear. Bronchial glandular cells demonstrated mixed nuclear and cytoplasmic staining. Lung carcinomas showed all patterns of expression for HAP1. Loss of HAP1 expression was associated with low proliferation index (p=0.01) and with squamous histology (p=0.04). In squamous carcinomas, a significant correlation was observed between positive nuclear HAP1 and negative p53 expression (p=0.03). A survival benefit was seen in patients presenting nuclear HAP1 expression and those presenting the nuclear HAP1+/p53- phenotype (p=0.01 and 0.007, respectively). It is concluded that nuclear HAP1 localization may be relevant to its role as a DNA repair protein and/or to the recently proposed role as an activator of wild-type p53, and thus to the better outcome seen in this group of patients.
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PMID:Nuclear localization of human AP endonuclease 1 (HAP1/Ref-1) associates with prognosis in early operable non-small cell lung cancer (NSCLC). 1054 96

In the therapy of various kinds of tumors, methylating agents generating O6-methylguanine (O6MeG) in DNA are used. We studied the molecular mechanism of cell death induced by these agents by comparing isogenic cell lines proficient (MGMT+) and deficient (MGMT-) for the DNA repair protein alkyltransferase and exhibiting the tolerance phenotype. Hypersensitivity to methylation-induced cell killing of MGMT- cells is attributable to the potent induction of apoptosis. We show that apoptosis is a late event occurring >48 h after methylation. It was preceded by decrease in Bcl-2 protein level and accompanied by activation of caspase-9 and caspase-3. We also observed cytochrome c release and hypophosphorylation of Bad. Other members of the Bcl-2 family (Bag-1, Bak, Bax, and Bcl-xL) were not altered in expression. Transfection of MGMT- cells with bcl-2 protected against methylation-induced apoptosis, indicating that Bcl-2 plays a key role in the response. Induction of apoptosis in MGMT- cells was not triggered by Fas and Fas ligand (CD95, Apo-1) because both proteins remained unaltered in expression and receptor-proximal caspase-8 was not activated after methylation. Also, inhibition of caspase-8 was ineffective in modifying the apoptotic response, whereas inhibition of caspase-3 and caspase-9 blocked apoptosis. Tolerant cells that are unable to repair O6MeG and are impaired in mismatch repair were less sensitive regarding the induction of apoptosis and Bcl-2 decline, supporting the view that O6MeG-induced apoptosis requires mismatch repair. The ultimate O6MeG-derived lesions triggering the apoptotic pathway are likely to be DNA double-strand breaks, which were significantly formed in MGMT- but not in MGMT+ and tolerant cells and which preceded apoptosis. Overall, the data indicate that O6MeG induces apoptosis via secondary lesions that trigger Bcl-2 decline, cytochrome c release, and caspase-9 and caspase-3 activation independently of Fas/Fas ligand and p53, for which the cells are mutated.
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PMID:Apoptosis induced by DNA damage O6-methylguanine is Bcl-2 and caspase-9/3 regulated and Fas/caspase-8 independent. 1105 78

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