Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Promoter hypermethylation represents a primary mechanism in the inactivation of tumor suppressor genes during tumorigenesis. To determine the frequency and timing of hypermethylation during carcinogenesis of astrocytic tumors, we analysed promoter methylation status of ten tumor-associated genes (MGMT, GSTP1, DAPK, p14ARF, THBS1, TIMP-3, p73, p16INK4A, RB1 and TP53) in a series of 88 astrocytic gliomas, including 24 diffuse astrocytomas; 21 anaplastic astrocytomas, and 43 glioblastomas (33 primary and 10 secondary), as well as two non-neoplastic brain samples, by methylation-specific PCR. Aberrant CpG island methylation was detected in all ten genes analysed, and all but one sample displayed anomalies in at least one gene. The methylation index (number methylated genes/total genes analysed) was 0.3, 0.38, 0.33 and 0.29 for diffuse astrocytomas, anaplastic astrocytomas and secondary and primary glioblastomas, respectively. Some differences may be established regarding the methylation profiles of specific genes and tumor types: MGMT, THBS1, TIMP-3, and p16INK4A appear hypermethylated in low-grade tumors (at least in 45% of cases), whereas GSTP1, DAPK, and p14ARF are mostly changed in 15-50% of the higher grade forms versus <10% in low-grade tumors. Some variation also exists regarding the methylation values for p73 and RB1 (10-40% of cases) among all groups. TP53 presented hypermethylation rates <10% in all tumor subtypes. Our findings thus suggest that methylation represents a common mechanism that contributes to inactivating cancer-related genes in astrocytic neoplasms. This epigenetic change is, in general, an early event in the development of astrocytic neoplasms but this gene silencing mechanism may also appear as a late event involving some loci.
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PMID:Promoter hypermethylation of multiple genes in astrocytic gliomas. 1257 14

We have determined the promoter CpG island methylation status of O(6)-methylguanine-DNA methyltransferase (MGMT), glutathione-S-transferase P1 (GSTP1), death-associated protein kinase (DAPK), p14(ARF), thrombospondin-1 (THBS1), tissue inhibitor of metalloproteinase-3 gene (TIMP-3), p73, p16(INK4A), RB1, and TP53 genes in three primary central nervous system lymphomas (PCNSL). Five genes (GSTP1, DAPK, TIMP-3, p16(INK4A), and RB1) were hypermethylated in two samples, whereas MGMT, THBS1, and p73 were aberrantly methylated in only one sample. No case presented CpG island methylation for the p14(ARF) and TP53 genes. These findings concur with previous data suggesting a frequent inactivation of p16(INK4A) and very limited involvement of TP53 in PCNSL and also provide insights into the epigenetic molecular involvement of other tumor-related genes in this neoplasm.
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PMID:CpG island methylation of tumor-related genes in three primary central nervous system lymphomas in immunocompetent patients. 1266 28

Aberrant methylation of CpG islands located in promoter regions represents one of the major mechanisms for silencing of cancer-related genes in tumour cells. We determined the frequency of aberrant CpG island methylation of several tumour-associated genes: MGMT, GSTP1, DAPK, p14ARF, THBS1, TIMP-3, p73, p16INK4A, RB1 and TP53 in 24 neurogenic tumours consisting of pilocytic astrocytomas (n=13) and medulloblastomas (n=11). The methylation index (number methylated genes/total genes analysed) displayed slight differences (0.18 and 0.25, respectively), and the profile of methylated genes in the two neoplasms was distinct, as predicted. The main differences involved the methylation rate of GSTP1 (0% in pilocytic astrocytomas vs. 18% medulloblastomas) and p14ARF (0% in pilocytic astrocytomas vs. 45% in medulloblastomas) genes. Pilocytic astrocytomas also demonstrated some differences when compared to methylation data from other astrocytic tumours, primarily regarding the MGMT methylation rate. Despite the fact that these differences do not show specific tumour-associated gene methylation patterns, our findings should help us understand the pathogenic mechanisms of both neurogenic neoplasm types.
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PMID:Epigenetic changes in pilocytic astrocytomas and medulloblastomas. 1268 7

The loss of tumour suppressor genes (TSGs) is a key event in many human cancers, including gastric carcinoma. Many TSG candidates have been studied, but their roles in gastric carcinogenesis remain unclear. To clarify the clinical significance of TSG expression in gastric carcinoma, the expression of various TSG candidates (p53, E-cadherin, FHIT, smad4, rb, VHL, PTEN, MGMT, p16, and KAI1), as well as other proteins (bcl-2, MUC1, MUC2, MUC5AC, MUC6, CEA, CD44, beta-catenin, C-erbB2, and cyclin B2), was evaluated immunohistochemically in 329 consecutive gastric carcinomas using the tissue array method. The overexpression of p53 and MUC1 (p < 0.01) and the loss of expression of smad4 (p = 0.04), FHIT (p = 0.03), MGMT (p = 0.01), E-cadherin, KAI1, and PTEN (p < 0.01) were found to be significantly associated with poor gastric carcinoma prognosis. Seven out of eight survival-associated proteins were found to be protein products of TSGs. The gastric carcinomas were divided into five groups according to the grade of alteration in TSG expression. No TSG expression loss was found in 32 cases (TSG1). One TSG loss was found in 47 cases (TSG2), two in 67 cases (TSG3), three or four in 64 cases (TSG4), and five, six, or seven in 38 cases (TSG5). The grade of TSG expression was confirmed to be significantly associated with WHO classification (p = 0.04), pTNM stage, lymphatic invasion, and patient survival (p < 0.01 for the latter three). By multivariate analysis, the grade of TSG expression was found to be significantly and independently associated with patient survival (p < 0.01). In conclusion, the findings of this study suggest that the cumulative loss of TSG expression in gastric carcinoma is important in determining patient survival.
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PMID:Tumour suppressor gene expression correlates with gastric cancer prognosis. 1269 39

The O6-methylguanine-DNA methyltransferase (MGMT) plays a major role in repairing DNA damage from alkylating agents. In several human neoplasms including low-grade diffuse astrocytomas, promoter hypermethylation of MGMT has been shown to correlate with an increased frequency of p53 mutation. In the present study, we analyzed MGMT promoter methylation by the methylation-specific PCR in 49 newly diagnosed WHO grade II astrocytomas and evaluated its clinical usefulness. MGMT promoter methylation was found in 21 (43%) of the 49 tumors. A tight correlation existed between MGMT methylation and p53 protein accumulation (P=0.0424). The presence of MGMT methylation was significantly associated with a shorter progression free survival (PFS) on both univariate analysis (P=0.0014) and multivariate analysis (P=0.0081). It was a more powerful determinant of the PFS than age, sex, performance status, proliferative activity, or p53 expression, and was independent of the extent of surgery. In terms of the overall survival, MGMT methylation demonstrated a prognostic utility in the univariate analysis but not in the multivariate analysis. The present findings indicate that aberrant methylation of the MGMT promoter independently augurs for an unfavorable clinical course in patients with low-grade diffuse astrocytomas. Since the presence of MGMT methylation is expected to predict an increased sensitivity to alkylating chemotherapeutic agents, earlier chemotherapy could serve to improve an unfavorable natural history in tumors with MGMT methylation.
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PMID:Promoter hypermethylation of the DNA repair gene O6-methylguanine-DNA methyltransferase is an independent predictor of shortened progression free survival in patients with low-grade diffuse astrocytomas. 1274 71

Human malignant gliomas arise from neural progenitor cells and/or dedifferentiated astrocytes. By now, they are genetically so well characterized that several murine glioma models have emerged that faithfully reiterate the typical histological features of the disease. In experimental animals, only one or two elements of the growth factor/Ras, PI3K/PTEN/PKB, p53/ARF/HDM2, and p16/Rb/cyclinD/CDK4 pathways are targeted. In human gliomas, many additional genes and pathways are targeted due to a most severe mutator phenotype that leads to the accumulation of countless epigenetic and genetic alterations. Changes that convey a growth advantage are selected for, leading to overgrowth of precursor cell populations with increasingly malignant tumor cell clones. While murine models represent a powerful tool for elucidating the role of genetic pathways, mechanisms of response and resistance to new therapeutic agents might be fundamentally different due to the high degree of genomic instability in the human disease. In fact, little is known about the molecular causes of genomic instability involved in gliomas, except for the rare Turcot's syndrome, O(6)-methylguanine-DNA methyltransferase, and the apurinic/apyrimidinic endonuclease Ape-1. Novel approaches that selectively exploit fundamental metabolic differences between tumor and normal cells have to consider these fundamental differences between human disease and presently available, highly sophisticated animal models.
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PMID:Genes and pathways driving glioblastomas in humans and murine disease models. 1278 72

The development of esophageal squamous cell carcinoma (ESCC) has been linked to exposure to carcinogens such as nitrosamines that cause various alkyl DNA damages and O6-methylguanine-DNA methyltransferase (MGMT) is a primary defence against alkylation-induced mutagenesis and carcinogenesis. This study was to investigate the role of inactivation of MGMT by promoter hypermethylation and its relation to p53 mutations in ESCC. Methylation of MGMT promoter was determined by methylation-specific polymerase chain reaction in 119 ESCC specimens, 22 corresponding tissue samples adjacent to the tumors, and 21 normal epithelial specimens of the esophagus. The levels of MGMT protein in ESCC with methylated or unmethylated MGMT were analyzed by quantitative immunohistochemistry. Mutations of p53 in 119 ESCC were detected by denaturing high-performance liquid chromatography and sequencing. We found that all 21 normal esophageal tissues had unmethylated MGMT; however, among 119 ESCC, 46 (38.7%) had hypermethylated MGMT. This epigenetic change also occurred in some normal tissues adjacent to the tumors. The level of MGMT protein in MGMT-methylated ESCC was significantly lower than that in MGMT-unmethylated ESCC, whereas great inter-individual variation and poor expression was also observed among MGMT-unmethylated ESCC. Fifty-one percent (61/119) ESCC showed p53 mutations but the distribution of the mutations did not differ significantly between MGMT-methylated ESCC (44%) and MGMT-unmethylated ESCC (56.2%; P = 0.18). MGMT promoter hypermethylation was neither associated with overall G:C to A:T mutations nor associated with this type of mutations in non-CpG dinucleotides in p53. Our results demonstrate that inactivation of MGMT by aberrant promoter methylation is a frequent molecular event in ESCC. This epigenetic alteration is an important, but may not be the sole, mechanism leading to the impaired expression of MGMT. Aberrant MGMT methylation seemed not to be associated with overall frequency and spectrum of p53 mutations in ESCC.
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PMID:Inactivation of DNA repair gene O6-methylguanine-DNA methyltransferase by promoter hypermethylation and its relation to p53 mutations in esophageal squamous cell carcinoma. 1280 58

Aberrant hypermethylation occurs in tumour cell CpG islands and is an important pathway for the repression of gene transcription in cancers. We investigated aberrant hypermethylation of 11 genes by methylation-specific polymerase chain reaction (PCR), after treatment of the DNA with bisulphite, and correlated the findings with MYCN amplification and allelic status at 1p in a series of 44 neuroblastic tumours. This tumour series includes five ganglioneuromas (G), one ganglioneuroblastoma (GN) and 38 neuroblastomas (six stage 1 tumours; five stage 2 tumours; six stage 3 cases; 19 stage 4 tumours, and two stage 4S cases). Aberrant methylation of at least one of the 11 genes studied was detected in 95% (42 of 44) of the cases. The frequencies of aberrant methylation were: 64% for thrombospondin-1 (THBS1); 30% for tissue inhibitor of metalloproteinase 3 (TIMP-3); 27% for O6-methylguanine-DNA methyltransferase (MGMT); 25% for p73; 18% for RB1; 14% for death-associated protein kinase (DAPK), p14ARF, p16INK4a and caspase 8, and 0% for TP53 and glutathione S-transferase P1 (GSTP1). No aberrant methylation was observed in four control normal tissue samples (brain and adrenal medulla). MYCN amplification was found in 11 cases (all stage 4 neuroblastomas), whereas allelic loss at 1p was identified in 16 samples (13 stage 4 and two stage 3 neuroblastomas, and one ganglioneuroma). All but one case with caspase 8 methylation also displayed MYCN amplification. Our results suggest that promoter hypermethylation is a frequent epigenetic event in the tumorigenesis of neuroblastic tumours, but no specific pattern of hypermethylated genes could be demonstrated.
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PMID:Aberrant methylation of multiple genes in neuroblastic tumours. relationship with MYCN amplification and allelic status at 1p. 1282 52

Promoter hypermethylation represents a primary mechanism in the inactivation of tumor suppressor genes during tumorigenesis. To determine the frequency and timing of hypermethylation during carcinogenesis of nonastrocytic tumors, we analyzed promoter methylation status of 10 tumor-associated genes in a series of 41 oligodendrogliomas (22 World Health Organization [WHO] grade II; 13 WHO grade III; 6 WHO grade II-III oligoastrocytomas) and 7 WHO grade II-III ependymomas, as well as 2 nonneoplastic brain samples, by a methylation-specific polymerase chain reaction. Aberrant CpG island methylation was detected in 9 of 10 genes analyzed, and all but one sample displayed anomalies in at least one gene. The frequencies of hypermethylation for the 10 genes were as follows, in oligodendrogliomas and ependymomas, respectively: 80% and 28% for MGMT; 70% and 28% for GSTP1; 66% and 57% for DAPK; 44% and 28% for TP14(ARF); 39% and 0% for THBS1; 24% and 28% for TIMP3; 24% and 14% for TP73; 22% and 0% for TP16(INK4A); 3% and 14% for RB1; and 0% in both neoplasms for TP53. No methylation of these genes was detected in normal brain tissue samples. We conclude that a high frequency of aberrant methylation of the 5' CpG island of the MGMT, GSTP1, TP14(ARF), THBS1, TIMP3, and TP73 genes is observed in nonastrocytic neoplasms. This aberration seems to occur early in the carcinogenesis process (it is already present in the low-grade forms), although in some instances (DAPK, THBS1, and TP73) it appears also associated with the genesis of anaplastic forms.
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PMID:Aberrant promoter methylation of multiple genes in oligodendrogliomas and ependymomas. 1285 Mar 76

Aberrant methylation of the promoter CpG island of human genes is an alternative gene inactivation mechanism that contributes to the carcinogenesis of human tumours. We have determined the methylation status of the CpG island of 11 tumour-related genes (RB1, p14ARF, p16INK4a, p73, TIMP-3, MGMT, DAPK, THBS1, caspase 8, TP53 and GSTP1) in 18 neurofibromas (including one plexiform neurofibroma) and three neurofibrosarcomas, as well as two non-neoplastic peripheral nerve sheath samples, using methylation-specific polymerase chain reaction. The series included sporadic and neurofibromatosis type 1-associated tumours. The incidence of aberrant methylation in the tumour samples was 52% for THBS1, 43% for MGMT, 33% for TIMP-3, 19% each for p16INK4a and p73, 14% for RB1, 5% for p14ARF, and 0% for DAPK, caspase 8, TP53 and GSTP1. No methylation of these genes was detected in the two samples of non-neoplastic peripheral nerve sheath. All but three samples in the study displayed aberrant methylation in at least one of the studied genes, and there was no correlation between methylation status and the patients' clinical parameters. These findings suggest that methylation of some tumour-related genes may play a significant role in the tumourigenesis of neurofibromas/neurofibrosarcomas.
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PMID:Aberrant CpG island methylation in neurofibromas and neurofibrosarcomas. 1288 34


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