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)

In this study, we analyzed 105 paired sporadic primary breast tumor and normal tissue samples for loss of heterozygosity (LOH) on chromosome 17, using 12 polymorphic markers. We have identified partial or interstitial LOH in five separate regions of chromosome 17. Two of the deleted regions lie on the short arm of the chromosome, the first (region I, D17S5) in the telomeric part, distal to TP53 and the second spanning the TP53 gene (region II). Three of the five deleted regions lie on the long arm of chromosome 17: region III, on the proximal long arm between D17S250 and THRA1; region IV, between D17S776 and D17S579, including the BRCA1 gene, and region V, located distal to D17S733. No statistically significant correlations were observed between clinicopathological characteristics or steroid hormone receptor status and deletion of either region I or II. However, patients whose tumors had LOH for region I showed relapse or death more frequently than patients with tumors informative for this region but without LOH (p = 0.002). Statistically significant correlations between LOH at each of the three deleted regions of 17q and a high mitotic index were observed (region III, p = 0.005; region IV, p = 0.02, and region V, p = 0.004). In addition, LOH at region IV showed a significant association with paucity of estrogen receptors (p = 0.01). Our results show a complex pattern of LOH on chromosome 17 in breast cancer and a correlation of these events with different clinical parameters. This pattern suggests that particular subsets of allele loss may contribute specifically to different clinically defined subsets of sporadic breast tumors.
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PMID:Five distinct deleted regions on chromosome 17 defining different subsets of human primary breast tumors. 747 29

A number of genes are known to be involved in inherited susceptibility to breast and/or ovarian cancer. In the context of high-risk families the most important genes are BRCA1 on chromosome 17q, which is associated with a high penetrance of both breast and ovarian cancer, and BRCA2 on chromosome 13q, which causes a high risk of breast cancer but a lower risk of ovarian cancer. Other high-risk cancer genes that confer increased risks of breast or ovarian cancer in addition to other cancers include the hereditary non-polyposis colorectal cancer genes and the TP53 gene, which causes breast cancer as part of the Li-Fraumeni syndrome. The predisposing mutations in these genes are relatively rare in the population. More common genes which are associated with an increased, but lower, risk of breast cancer are the ataxiatelangiectasia gene and the HRAS1 gene. This paper reviews recent progress in mapping and cloning of these susceptibility genes, and provides estimates of the cancer risks associated with each gene and the frequency of predisposing mutations.
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PMID:The genetics of breast and ovarian cancer. 754 24

In order to detect regions of DNA containing tumor suppressor genes involved in the development of gastric cancer, we performed an allelotype study on 78 gastric adenocarcinomas from a population composed largely of Texan Hispanics and Anglos, two ethnic groups that have a ratio of incidence rates of gastric cancer of approximately 2:1. In total, 42 microsatellite markers were employed, which detected at least one site per arm of each autosome in the human genome. These included several markers linked to known tumor suppressor genes (TP53, APC, DCC, RB1, and BRCA1). Sites showing quantitative allelic imbalance (AI) greater than 30% were located on 3p (36%), 11q (31%), 12q (38%), 13q (33%), 17p near TP53 (74%), and 17q near BRCAI (32%). Among the 22% of cases showing microsatellite instability (MI), a subset (4 of 17) showed instability at 59% or more of sites tested. No ethnic bias was detected in cases showing MI or in cases with AI at sites with rates of AI above 30%. Tumors of the intestinal subtype were significantly more likely than diffuse tumors to show AI at DI3S170 (P = 0.01). A deletion map of chromosome arm 3p was prepared for tumors with AI at D3S1478. These data indicate that a tumor suppressor gene on chromosome arm 3p is involved in the development of a subset of gastric cancers.
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PMID:Allelic imbalance in gastric cancer: an affected site on chromosome arm 3p. 754 34

The submitted account on genes of the 17th chromosome pays attention to autosomal dominant hereditary neurodegenerative diseases which have some characteristics in common-they are relatively frequent, a considerable proportion of the cases is conditioned by new mutations, contributed mainly by male gametes, and they affect mostly the periphery of the nervous system. In addition to the cause of this group of diseases which at present is not yet quite clear, the 17th chromosome is the carrier of the locus the product of which--p53 protein--interferes with oncogenesis. Its effect twofold--the normal product under normal conditions (natural regulation) exerts an antioncogenic action, its shortage or altered quality-(mutations) exert an oncogenic action. Another important locus which is involved in oncogenic processes is locus RARA--the receptor of retinoic acid which participates in the formation of promyelocytic acute leukaemia and locus BRCA1 the pathogenic alleles of which are a dominant predisposition for breast cancer.
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PMID:[The human genome--chromosome 17]. 755 59

Allelic loss is a common mechanism of inactivation of tumour-suppressor genes in colorectal carcinomas. A number of known or putative tumour-suppressor genes including NF1, BRCA1, NME1, NME2 and prohibitin are present on the long arm of chromosome 17, and this region has not been extensively analysed in colorectal tumours. In this study 72 colorectal carcinomas were examined for allelic loss at eight loci on chromosome 17. Allelic loss was frequent both at the p53 locus, which is known to be important in colorectal carcinoma, and also telomeric to p53 on 17p. Allelic loss continued to be present in more than 50% of cases in the pericentromeric region and on proximal 17q to the marker LEW101 (D17S40) at 17q22-23. The most telomeric markers on 17q showed lower rates of allelic loss. Analysis of cases with partial deletions which did not include the p53 locus showed a common region of overlap of the deletions centred on D17S40. This suggests the target of allelic loss on 17q is a tumour-suppressor gene in this region.
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PMID:Colorectal carcinomas show frequent allelic loss on the long arm of chromosome 17 with evidence for a specific target region. 773 2

Various gene systems are involved in events occurring during transformation of a normal cell into a cancer cell. By order of intervention, genes responsible for an increased individual susceptibility to cancer can be distinguished from actual cancer genes, followed by genes involved at other levels of carcinogenesis. 15 to 20% of patients with breast cancer have a first-degree relative affected by the same cancer, although an inherited predisposition to cancer is only established in 4 to 10% of cases. The genetic heterogeneity of familial forms of breast cancer make it difficult to identify susceptibility genes. At the present time, 3 regions of the genome have been implicated in the predisposition to breast cancer in women: the BRCA1 gene, the BRCA2 gene and the TP53 gene. All predisposition genes are able to transmit susceptibility due to a mutation or inherited microdeletion.
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PMID:[Genetics and cancer: application to the breast]. 779 27

This review discusses recent insights into the roles of the p53 tumor-suppressor gene and growth factors in the development of ovarian cancer and describes the genes implicated in familial ovarian cancer syndromes related to the MSH2 (Lynch II) and BRCA1 (breast and ovarian cancer) genes. Evidence of the monoclonality of ovarian cancer, which contrasts with data supporting the polyclonal origin of primary peritoneal carcinoma, is presented. Finally, the roles of the human papillomavirus and the HIV virus in the etiology of cervical cancer are analyzed in view of the growing importance of this HIV-associated cancer and the poor outcome in these patients.
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PMID:Advances in the biology of gynecologic cancer. 782 56

A number of candidate tumor suppressor genes located on the human chromosome 17 are thought to have a role to play in the development of breast cancer. In addition to the p53 gene on 17p13.1 and the BRCA1 gene mapped to 17q12-21, other chromosomal regions for tumor suppressor genes have been suggested to exist on 17p13.3 and both the central and the distal parts of 17q, although definitive functional proof of their involvement in breast cancer tumorigenesis is still lacking. In this report we show that microcell transfer of a human chromosome 17 into wild-type p53 breast cancer cells CAL51 results in loss of tumorigenicity and anchorage-independent growth, changes in cell morphology and a reduction of cell growth rates of the neo-selected microcell hybrids. In the hybrid cells, which express the p53 wild-type protein, only the p- and the distal parts of the q arm of donor chromosome 17 are transferred. Thus, our results provide functional evidence for the presence of one or more tumor suppressor gene(s) on chromosome 17, which are distinct from the p53 and the BRCA1 genes.
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PMID:Suppression of tumorigenicity of breast cancer cells by transfer of human chromosome 17 does not require transferred BRCA1 and p53 genes. 784 68

Risks for breast cancer when there is a family history of the disease are usually calculated using data from segregation analyses which favour a single dominant gene with high penetrance. There are, however, at least three loci known to be associated with familial breast cancer (p53, BRCA1, and an as yet unpublished locus) and the frequencies and penetrances of these genes are not likely to be the same. We have attempted to address the problem of which genetic parameters should be used to calculate risks for different patterns of familial breast cancer. Data from 384 nuclear families ascertained through a proband selected for early onset breast cancer were subjected to complex segregation analysis, correcting for ascertainment bias resulting from selection for severe phenotype. Age of onset of breast cancer, incorporated as severity, provides additional information to the segregation model over and above that given by assigning liability classes on the basis of age at observation. The use of this additional parameter in the analysis is described. There is fair agreement between estimates from this sample and previous predictions from consecutive probands and consultands. The differences suggest more than one rare dominant gene for susceptibility to breast cancer, with different penetrances. Although refinements of segregation analysis will help to delineate these different genes, perfect resolution will require identification of the mutant alleles. Methods to estimate genetic parameters under genotype specific mortality need to be developed. Meanwhile, we suggest that high and low estimates of penetrance be used in risk estimation for genetic counselling, and as a guide to candidates for entry into clinical trials of screening and chemoprevention in breast cancer.
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PMID:Genetic epidemiology of early onset breast cancer. 789 76

We report a family with the Li-Fraumeni syndrome (LFS) in whom we have been unable to detect a mutation in the coding sequence of the p53 gene. Analysis of linkage to three polymorphic markers within p53 enabled direct involvement of p53 to be excluded. This is the first example of a LFS family in whom exclusion of p53 has been possible. Four affected members of the family with sarcoma or premenopausal breast cancer showed increased expression of p53 protein in their normal tissues as detected by immunohistochemistry. It therefore appears that the LFS phenotype has been conferred by an aberrant gene, showing a dominant pattern of inheritance, which may be acting to compromise normal p53 function rather than by a mutation in p53 itself. In order to try to determine the chromosomal location of this putative gene, we have carried out studies of linkage to candidate loci. By these means we have excluded involvement of Rb1 and BRCA1 on chromosomes 13q and 17q respectively. The MDM2 oncogene on chromosome 12q was considered to be the prime candidate as MDM2 is amplified in sarcomas and the MDM2 product binds to p53. Furthermore, p53 mutation and amplification of MDM2 have been shown to be mutually exclusive events in tumour development. Linkage analysis to two polymorphic markers within MDM2 yielded a three-point LOD score of -5.4 at a recombination fraction theta equal to zero. Therefore MDM2 could be excluded. It is possible that the gene which is responsible for cancer susceptibility in this family, possibly via interaction with p53, will be important in the histogenesis of breast cancer in general. We are now carrying out further studies to locate and identify this gene.
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PMID:Linkage studies in a Li-Fraumeni family with increased expression of p53 protein but no germline mutation in p53. 798 Oct 72


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