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)

Previous studies have shown p53 germ-line mutations in some familial cancer aggregations with or without the Li-Fraumeni syndrome (LFS). Such mutations were also reported in children and young adults with second malignant neoplasms (SMN). This led us to screen for p53 germ-line mutations in a group of seven patients affected with SMN, but characterized by an older age of onset than in the previous reports. No mutation was found in exons 4 to 8 and their boundaries using the single-strand conformation polymorphism technique. Our results give strong evidence for genetic heterogeneity of SMN, probably related to the age of cancer onset.
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PMID:Lack of germ-line mutations in the p53 gene exons 4 to 8 in patients with late-onset second malignant neoplasms. 792 66

Deletion of p53, which is an anti-oncogene located on chromosome 17p, was reported to be present at a high incidence in tumor cells of colorectal carcinoma, as well as osteosarcoma of the familial cancer syndrome. Mutations of the p53 gene were investigated in 59 surgical specimens of primary carcinomas of the urinary system from 57 patients, using the polymerase chain reaction single-strand conformation polymorphism (PCR-SSCP) analysis. The PCR products were sequenced using the dideoxy chain termination method or the DNA sequencer. The tumors examined were 20 transitional cell carcinomas (TCC) and 39 renal cell carcinomas (RCC). Mutations of the p53 gene were detected in 20.0% (4/20) of TCC and were present in 16.7% (1/6) of the tumors invading the muscular layer. In two patients with simultaneous double bladder TCC, the mutations were found only in the larger tumors. In RCC, mutations were detected in 7.7% (3/39) of patients. No significant correlation between the presence of the mutation and the clinicopathologic parameters was found in RCC except that the three tumors with p53 gene mutations were clear cell carcinomas. These results suggest that p53 gene mutations play a possible role in both carcinogenesis and progression of TCC, but the p53 gene mutations may not be significant in development of RCC.
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PMID:Mutations of the p53 gene in carcinomas of the urinary system. 810 52

The isolation of genes that predispose to familial disease is an important goal in cancer research. The identification of such genes "opens up" the possibility of genetic diagnosis in families so that individuals who are at risk of cancer through inheriting a predisposing mutation can be identified. Genes that are involved in familial cancer syndromes may also be important in the pathogenesis of sporadic forms of the disease, which are often more common. In the search for genes that predispose to familial breast and ovarian cancer much recent progress has been made. A locus on the long arm of chromosome 17, in the interval 17q12-21, has been identified by genetic linkage, and appears to be responsible for disease in approximately 40% of breast cancer families and most families that contain breast and ovarian cancer. The region containing this locus, which has been called BRCA1, has been narrowed to a 3-4 cM interval defined by THRA1, the thyroid hormone receptor locus alpha, and D17S183, an anonymous microsatellite polymorphism. Loci other than BRCA1 that have been identified appear not only to predispose to breast and/or ovarian tumors, but to tumors at other sites too. A new locus has been identified on chromosome 2 which is linked to hereditary non-polyposis colorectal cancer (HNPCC). Families with HNPCC are also at risk of endometrial cancer and tumors of the ovary, amongst other cancer sites. Finally, mutations in the p53 gene are inherited in families with Li-Fraumeni syndrome, a rare cancer syndrome predisposing to breast tumors, sarcomas, leukemia and other cancers. Li-Fraumeni syndrome is also the only inherited cancer syndrome that predisposes at least in part to breast cancer where the actual predisposing gene is known. For the other cancer syndromes, the cloning of the predisposing genes is eagerly awaited.
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PMID:Predisposing genes in breast and ovarian cancer: an overview. 811 68

Germline mutations within evolutionary conserved exons of the p53 gene predispose to tumor development in several familial cancer syndromes. We now report identification of a novel p53 mutation affecting the splice acceptor site of exon 6 in the germline DNA of a family with hereditary breast-ovarian cancer. This splice-site mutation, which results in omission of exon 6 and creates a frame-shift and premature stop codon in transcripts from the mutant allele, was found in seven family members--four of whom have developed breast, ovarian or choroid plexus tumors before age 35. Our finding suggests the need to examine the entire p53 gene for splice-site, frame-shift, and nonsense (as well as missense) mutations in families with early-onset hereditary breast and breast-ovarian cancers not linked to the BRCA1 gene on chromosome 17q. We propose that the term 'p53 familial cancer syndrome' be applied to clusters of tumors in families with documented germline p53 mutations, regardless of the histopathologic findings or pattern of tumor development.
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PMID:Splice-site mutation of the p53 gene in a family with hereditary breast-ovarian cancer. 830 8

Codon 248 in domain iv of the highly conserved region of the p53 gene is a frequent site of mutations associated with sporadic cancers and the familial cancer syndrome (Li-Fraumeni syndrome). Therefore, a characterization of the functional significance of a codon 248 mutation is of interest. We used antisense RNA methodology to study the role of the wild-type and mutated p53 gene in cell growth and tumorigenesis. We introduced wild-type p53 complementary DNA in sense or antisense orientation under control of a beta-actin promoter into human non-small cell lung cancer cell line H322a which has a codon 248 mutation (G to T) and WTH226b which has wild type p53. The biological properties and p53 expression of stable G418-resistant clones were analyzed. We observed that in both cell lines antisense RNA expression significantly reduced p53 mRNA and protein production; it also caused increases in growth rate in cell cultures and in tumorigenicity in nu/nu mice for both cell types, suggesting that the mechanism by which p53 suppresses cell proliferation and tumorigenesis is not always abrogated by a codon 248 mutation.
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PMID:A codon 248 p53 mutation retains tumor suppressor function as shown by enhancement of tumor growth by antisense p53. 836 31

The author reviews current findings regarding inherited cancer predisposition and childhood cancer and proposes development of genetic services for long-term survivors of childhood cancer. Overall, it is suggested that relatively rare germline mutations in the tumor suppressor genes, Rb, p53, and WT1, may have important implications for long-term survivors relevant to familial cancer, second malignant neoplasms, and developmental disorders. Although continued research clearly is needed, planning for genetic services for long-term survivors should begin now.
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PMID:Genetic implications for long-term survivors of childhood cancer. 838 78

Two distinct gene classes have been implicated in colorectal carcinogenesis. Tumour promoter genes (oncogenes, dominant oncogenes) produce an excessive positive stimulus to cell proliferation. The ras family of oncogenes are an example. Acquired mutations of the c-k-ras gene are commonly found in colonic adenomas and carcinomas. Tumour suppressor genes (anti-oncogenes, recessive oncogenes) normally constrain or regulate cell proliferation. Loss of this function through gene deletion or mutation is oncogenic. Inherited tumour suppressor gene mutations have now been identified in several of the familial cancer syndromes. Acquired tumour suppressor gene mutations are found in both sporadic and hereditary cancers. Together with the tumour promoter genes they provide the genetic basis for the cellular changes occurring during carcinogenesis. The retinoblastoma gene was the first human tumour suppressor gene to be characterized and exemplifies the class. More recently, linkage studies in the hereditary cancer syndromes and the detection of specific deletions in sporadic tumours have helped to identify several new tumour suppressor genes. At least four of these (MCC, APC, p53 and DCC) apparently contribute to sporadic colorectal carcinogenesis. Germ line APC mutations produce the inherited colorectal cancer syndrome familial adenomatous polyposis (FAP). Detection of these mutations using linked markers has already found clinical application in the screening of families with this disease. In the future, genetic diagnosis of hereditary non-polyposis colorectal cancer (HNPCC) and the recognition of those genetically susceptible to sporadic colorectal cancer may become possible. At the same time, as our understanding of the genes involved improves, new avenues for treatment and prevention of colorectal cancer may emerge.
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PMID:Tumour suppressor genes and colorectal neoplasia. 847 56

The Li-Fraumeni familial cancer syndrome was initially described in 1969 in a retrospective epidemiologic review of more than 600 pediatric sarcoma patients. The clinical definition of the syndrome has been refined in the last two decades by prospective analyses of several families. Despite these exhaustive studies, the gene or genes responsible for the unusual constellation of tumors in these families remained elusive until 1990, when it was demonstrated that germline abnormalities of the p53 tumor suppressor gene could account for the occurrence of cancer in many classic Li-Fraumeni families. Identification of the molecular events that yield this phenotype has led many researchers to pursue several lines of investigation to improve our understanding of the significance of such alterations. We discuss the clinical, epidemiologic, genetic, and biologic aspects of the association between p53 and the Li-Fraumeni family cancer syndrome.
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PMID:p53 and the Li-Fraumeni syndrome. 850 Jan 6

Mutation of the APC gene may be a common denominator of all human colon cancer--polypoid and non-polypoid familial cancer as well as sporadic occurrences. Fearon and Vogelstein (1990) have described a series of molecular changes during the progression of human colon cancer, beginning with mutations in APC. Min is a strain of the laboratory mouse carrying a nonsense mutation in Apc, the mouse homologue of APC. The Min strain has been used to test the effect of germline alterations in certain genes identified in the progression pathway of Fearon and Vogelstein. A deficiency in DNA cytosine methylase leads to a reduction in the tumour multiplicity of Min mice contrary to the a priori expectation based on the global hypomethylation of the DNA of early colonic neoplasms. Alterations in Kras had no perceptible effect on the tumour multiplicity of Min mice but may not have been successfully directed to the proliferative cell population. Constitutional mutation of p53 did not influence the multiplicity or histopathology of early Min induced intestinal tumours. The cause and effect analysis of the genetics of colon cancer is clearly in an early phase. An unlinked genetic factor interacting with Min in controlling intestinal tumour multiplicity is Mom1. A central goal for the near future is to identify the Mom1 gene product and to identify other loci that can interact with the Min mutation and affect tumour multiplicity or progression. Mouse chimaeras will permit an analysis of the clonality and cell autonomy of Min induced neoplasms and also of the action of Mom1. The results of these analyses will inform investigators as to what modes of prevention and therapy might be designed for particular tumour types. The Min strain thereby presents an opportunity to discover protective factors against human colon cancer.
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PMID:Emergent issues in the genetics of intestinal neoplasia. 871 26

The p53 gene is the most commonly altered gene in a multitude of human cancers. The alterations can be acquired somatically or transmitted through the germ-line. Bone and soft tissue sarcomas are frequently found to have acquired abnormalities in the p53 and mdm-2 genes. In soft tissue sarcoma, the amplification of the mdm-2 gene and the binding of its oncogene product to wild-type p53 protein functionally inactivates normal p53-regulated growth. Inherited mutations of the p53 gene are associated with the rare Li-Fraumeni familial cancer syndrome. Various tumor types arise in these families, with sarcomas of the bone and soft tissues and carcinoma of the breast being the most frequently observed. Transgenic mice with highly expressed mutated p53 have a higher incidence of tumors, including predominantly osteosarcomas and soft tissue sarcomas. In close similarity with the Li-Fraumeni syndrome, homozygously p53-null mice (transgenic mice carrying two non-functional p53 allele) are developmentally normal however they are susceptible to spontaneous tumor formation. This article reviews briefly the structure, function, and dysfunction of the p53 tumor-suppressor gene with particular focus on its role in the development of bone and soft tissue sarcoma.
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PMID:p53: functions, mutations and sarcomas. 905 90


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