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)

Human keratinocyte immortality is genetically recessive to the normal phenotype of limited replicative lifespan and appears to require the dysfunction of p53 and the cyclin D-Cdk inhibitor p16. In order to test for the inactivation of other candidate replicative lifespan genes in the immortal cells of human tumors, we developed a series of mortal and immortal keratinocyte cultures derived from neoplastic lesions of the head and neck which were amenable to molecular genetic analysis by the loss of heterozygosity (LOH) technique. The results indicate that keratinocyte immortalization in head and neck squamous cell carcinoma (SCC-HN) development involves the inactivation of at least two further pathways to senescence and four in all. Chromosomes 1, 4 and 7 carry genes representing immortality complementation groups C, B and D respectively and immortal keratinocytes showed LOH at either 4q32-q34 between D4S1554 and D4S171 (group B) or 7q31 (group D) but never 1q25 (group C). These results tentatively suggest that the genes responsible for the immortality complementation groups encode proteins on the same pathway to senescence. In addition, all of the immortal keratinocyte lines possessed high levels of telomerase activity and a suppressor of telomerase activity has been mapped to the short arm of chromosome 3p. Five out of eight lines showed LOH at 3p21.2-p21.3, a region which may carry a gene capable of suppressing SCC-HN telomerase. However, alternative mechanisms of telomerase reactivation were also suggested by our results. None of the above genetic alterations were seen in seven senescent neoplastic keratinocyte cultures. Other loci harbouring antiproliferative genes implicated in replicative lifespan showed few or no alterations and any alterations seen were additional to those described above.
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PMID:Evidence for the inactivation of multiple replicative lifespan genes in immortal human squamous cell carcinoma keratinocytes. 915 Mar 62

Like most other normal cells, human endothelial cells possess a limited replicative life span, and, after multiple passages in vitro, develop an arrest in cell division referred to as replicative senescence. For many cell types senescence can be delayed by oncogenes or tumor suppressor genes or prevented altogether by malignant transformation; however, once developed, senescence has been regarded as irreversible. We now report that a cytokine, vascular permeability factor/vascular endothelial growth factor (VPF/VEGF), significantly delays senescence in human dermal microvascular endothelial cells (HDMEC). Typically, VPF/VEGF-treated HDMEC could be cultured for at least 15-20 more population doublings (PD) than control cells. Protection from senescence was reversible in that subsequent withdrawal of VPF/VEGF returned cells to the senescent phenotype. Expression of several cell cycle-related genes (p21, p16 and p27) was significantly reduced in VPF/VEGF-treated cells but p53 expression was not significantly altered. Of particular importance, VPF/VEGF was able to rescue senescent HDMEC, restoring them to proliferation, to a more normal morphology, and to reduced expression of a senescence marker, neutral beta-galactosidase. Taken together, VPF/VEGF delayed the onset of senescence and also reversed senescence in microvascular endothelial cells without inducing cell transformation.
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PMID:Vascular permeability factor/vascular endothelial growth factor (VPF/VEGF) delays and induces escape from senescence in human dermal microvascular endothelial cells. 916 Aug 82

As the molecular events responsible for astrocytoma formation and progression are being clarified, it is becoming possible to correlate these alterations with the specific histopathological and biological features of astrocytoma, anaplastic astrocytoma and glioblastoma multiforme. In WHO grade II astrocytomas, autocrine stimulation by the plateletderived growth factor system coupled with inactivation of the p53 gene may lead to a growth stimulus in the face of decreased cell death with slow net growth ensuing. Such cells would also have defective responses to DNA damage and impaired DNA repair, setting the stage for future malignant change. Such biological scenarios recapitulate many of the clinicopathological features of WHO grade II astrocytomas. Anaplastic astrocytomas further display release of a critical cell cycle brake that involves the CDKN2/p16, RB and CDK4 genes. This results in mitoses seen histologically; clinically, there is more conspicuous, rapid growth. Finally, glioblastomas may emerge from the microenvironmental outgrowth of more malignant clones in a complex vicious cycle that involves necrosis, hypoxia, growth factor release, angiogenesis and clonal selection; growth signals mediated by activation of epidermal growth factor receptors may precipitate glioblastomas. It is clear as well that glioblastoma multiforme can arise via a number of independent genetic pathways, although the clinical significance of these distinctions remains unclear.
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PMID:A molecular genetic model of astrocytoma histopathology. 916 27

Head and neck cancers are a major heath problem and common malignancies in Thailand. Up to 80 per cent of cases are caused by smoking and alcohol consumption. Epithelial mucosa of the aerodigestive tract exposed to carcinogens results in cellular mutations at different areas by a process called field cancerization and causes multistep carcinogenesis. Over 90 per cent of cases are squamous cell carcinoma. Prognostic factors depend on the patients, diseases and treatment. Currently, several molecular pathogenesis have been discovered such as abnormalities of c-myc, c-ras, c-erbB-1, bcl, int-2, hst1 oncogenes, p53 and p16 tumor suppressor genes. Common chromosomal abnormalities are 3p, 9p, 11q, 13q, 17p. Diagnosis requires symptoms and signs, radioimaging, and pathology. Stage I and II can be treated by surgery or radiotherapy. However, stage II requires and combination of surgery and radiotherapy, and studies of chemotherapy and local treatment to increase therapeutic efficacy by several approaches such as combination chemotherapy, new drugs, and biologic therapy.
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PMID:Squamous cell carcinoma of head and neck. 917 90

Alterations of the methylation patterns of DNA are common in cancer cells and could conceivably comprise a subset of causal events in the carcinogenesis process. Although it has previously been shown that methylation of CpG islands in the 5'-control regions of tumor suppressor genes such as p16, Von Hippel-Lindau (VHL) syndrome gene, and the retinoblastoma (RB) gene can suppress expression and function of these gene products, the elements that control the expression of the p53 gene have not been examined in detail. In this study we examined the effect of CpG methylation in a region of the p53 promoter containing major transcription start sites. A region of the p53 promoter (from -199 to +142) containing 15 CpG dinucleotides was placed in a pCAT reporter plasmid and reporter activity was assessed in host CV-1 cells. We show for the first time that transcriptional activation of the p53 tumor suppressor gene, as assessed by a reporter plasmid construct, can be down-regulated by cytosine methylation in the basal promoter region. We believe these data suggest a role for methylation of CpG sequences in the regulation of transcription of p53. This implies that the tumor suppressor gene p53 could, therefore, contribute to carcinogenesis by inactivation via methylation of a key element in cell cycle control.
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PMID:CpG methylation inactivates the transcriptional activity of the promoter of the human p53 tumor suppressor gene. 919 6

In order to clarify the significance of p16 gene (CDKN2) inactivation and its disease specificity among hematopoietic tumors, configurations of the p16 gene as well as those of the adjacent p15 and interferon alpha (IFN alpha) genes were examined in primary hematopoietic tumors. Loss of the p16 gene is frequent in and highly specific to lymphoid tumors among hematopoietic tumors. Gene deletions but not minute mutations should be the predominant mechanism of p16 gene inactivation in these types of tumors. The p16 gene is most frequently deleted among the p16, p15 and IFN alpha genes and thus should be the target of deletions in this locus. Deletions of the p16 gene were frequently observed in tumors carrying chromosome 9p abnormalities while a significant number of cases showed loss of the p16 gene without chromosome 9p abnormalities. So far inactivation of p53 and Rb tumor suppressors have also been found in lymphoid tumors. In our study, we detected homozygous deletions of p16 gene in 20%, loss of Rb protein in 28%, and p53 gene alterations in 8% of lymphoid tumors. Notably, 44% of lymphoid tumors showed inactivation of at least one of the three tumor suppressors, suggesting these tumor suppressors are important for lymphoid tumorigenesis. Inactivations of these tumor suppressors should independently occur in development of lymphoid tumors.
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PMID:Recent progress in molecular mechanisms of leukemogenesis: the cyclin-dependent kinase 4-inhibitor gene in human leukemias. 920 89

Chronic myelogenous leukemia presents two distinct clinical phases: the chronic phase is characterised by a marked expansion of the myeloid compartment which still retains a normal differentiative capacity, whereas a differentiation block is the clinical hallmark of the acute transformation. The molecular mechanism underlying the CML progression are still poorly understood. The occurrence of additional molecular lesions, involving the p53, the RAS and the p16 genes may complement and fulfil the BCR/ABL transforming potential, finally leading to an acute leukemic phenotype. However, several lines of evidence suggest that also quantitative changes of the BCR/ABL transcript amounts could explain the progression of the leukemic phenotype in the BCR/ABL-positive hematologic malignancies.
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PMID:Molecular events in chronic myeloid leukemia progression. 920 43

Mantle-cell lymphoma comprises 2%-10% of all non-Hodgkin's lymphomas (NHLs). Patients present with generalized disease, and have a poor prognosis. Three different histologic patterns (mantle zone, nodular, and diffuse) and three different cytological variants (classical, blastic, and pleomorphic) have been described. The phenotype (strong surface IgM, CD5+, CD10-, CD23-, cyclin D1+ and B-cell markers+) is remarkably constant. Dependent on the methods used (PCR, Southern blot analysis, and cytogenetics) a t(11;14) can be detected in approximately 35%-66% of cases. Using FISH analysis, possibly almost all cyclin D1-expressing MCLs carry this translocation, indicating that a substantial part of these translocations are missed by conventional methods. This has been confirmed by DNA fiber FISH analysis by which the breakpoints could be accurately mapped over a 220 kb region centromeric of the cyclin D1 gene. Additional genetic abnormalities involve breakpoints and deletion at the 3' end of the cyclin D1 gene, numerical chromosomal aberrations, mutations in p53, and deletions of p16. These may be associated with tumor progression. Owing to the translocation t(11;14), the cyclin D1 gene is activated. At the RNA level, approximately 90% of MCLs show overexpression. This corroborates immunohistochemistry on paraffin tissue sections. Since expression of cyclin D1 in normal lymphoid cells is very low to undetectable, and only hairy-cell leukemia and very few other B-cell lymphomas show expression, immunohistochemistry for cyclin D1 provides an excellent marker for MCL. In hairy-cell leukemia, expression is moderate and cannot be explained by chromosomal translocation.
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PMID:Bcl-1/cyclin D1 in malignant lymphoma. 920 53

Glioblastoma multiforme is a rare neoplasm in children and is often located infratentorially, particularly in the brainstem: Pediatric glioblastomas arise frequently (here 60%) outside the cerebral hemispheres. We investigated 20 pediatric glioblastomas for mutational inactivation of the p53 tumor suppressor gene, loss of p16 protein expression and overexpression of the epidermal growth factor receptor (EGFR). Mutations in the p53 gene were identified in 5/20 (25%) glioblastomas, 4 of which occurred in primary glioblastomas with a clinical history of less than 4 months and neither clinical nor histologic evidence of a less malignant precursor lesion. Loss of p16 expression was detected in 11/18 (61%) glioblastomas. Overexpression of the EGFR was infrequent (2/19, 11%) and included 1 tumor with a p53 mutation. Of 4 secondary glioblastomas that progressed from histologically diagnosed lower grade tumors, one contained a p53 mutation. Our results are at variance with similar studies in adult patients in which primary and secondary glioblastomas are characterized by EGFR overexpression and p53 mutations, respectively, suggesting that the evolution of pediatric glioblastomas follows different genetic pathways.
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PMID:Determination of p53 mutations, EGFR overexpression, and loss of p16 expression in pediatric glioblastomas. 921 Aug 74

Glioblastoma multiforme (GBM) can be divided into genetic subsets: approximately one-third of GBM, primarily in older adults, have EGFR amplification; another one-third, primarily in younger adults, have TP53 mutation. The majority of GBM also have homozygous deletions of the CDKN2 (p16/MTS1) gene, resulting in cell cycle deregulation and elevated proliferation indices. We evaluated the relationship between CDKN2 deletions and the GBM subsets as defined by EGFR amplification or TP53 mutation in 70 GBM. Twenty-eight cases (40%) had EGFR amplification, 21 (30%) had TP53 mutation, and 21 (30%) had neither change. CDKN2 deletions were present in 36 (51%) GBM. Of the 28 GBM with EGFR amplification, 20 (71%) had CDKN2 deletion (p = 0.0078). The remaining 16 cases with CDKN2 loss were divided between GBM with TP53 mutations (6 cases) and GBM with neither EGFR amplification nor TP53 mutation (10 cases). Thus, CDKN2 deletions occur twice as commonly in GBM with EGFR amplification (71%) than in GBM with TP53 mutation (29%). CDKN2 deletions occurred in GBM from patients somewhat older than those patients with GBM lacking CDKN2 deletion (mean age 53 vs. 48 years). Specifically among GBM with EGFR amplification, those with CDKN2 deletions also occurred in patients slightly older than those few GBM without CDKN2 deletions (mean age 55 vs. 51 years). The presence of CDKN2 deletions in most GBM with EGFR amplification and in generally older patients may provide one explanation for the potentially more aggressive nature of such tumors.
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PMID:Association of EGFR gene amplification and CDKN2 (p16/MTS1) gene deletion in glioblastoma multiforme. 921 72


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