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Query: UMLS:C0006142 (breast cancer)
 160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Familial clustering of breast cancer has been recognised for over a century but until recently a genetic basis has been suspected rather than proven. Epidemiological studies have tended to support the view that an autosomal dominant gene, with high but incomplete penetrance, accounts for most breast cancer families. However, it is likely that several different predisposing genes are present within most populations. Difficulties arise in a conventional 'linkage mapping' approach to identifying these genes, first, because it is not clear that genetically homogeneous groups of families can be recognised on the basis, for example, of mean age of onset or pattern of other cancers within the kindred and, second, because breast cancer is so common (affecting almost one in twelve women) that large affected kindreds are likely to include an admixture of sporadic (non-genetic) cases. Cytogenetic and 'Loss of Heterozygosity' (LOH) studies in sporadic breast cancers have pointed to several candidate loci for breast cancer genes but there is no clear consensus from these two approaches that might direct attention to any prime target region. Recent reports of tight linkage between familial breast cancer (early onset) and breast/ovarian cancer (regardless of mean age of onset) and a locus on chromosome 17q21 defined by the anonymous probe CMM86, have not been confirmed in detail but have led to the identification of a locus some 15 Mb centromeric of CMM86 that gives a high positive lod at very low recombination fraction in fifteen Edinburgh breast and breast/ovarian cancer families. The disease in the majority of such families therefore appears to be attributable to a mutant gene at 17q12-21. A much smaller proportion of familial breast cancer is accounted for by mutations in the p53 gene (17p13). Not all such families fulfil the criteria for Li-Fraumeni syndrome and not all of the inherited mutations lie within exon 7 of p53. Counselling of members of breast cancer families becomes more exacting as these genetic lesions are identified. It is essential to extend the collection of data and tissue (blood or fixed pathology material) as widely as possible to confirm linkage to a specific locus within each individual kindred, to define the precise mutation and to establish the cancer phenotype and its penetrance. In the course of these studies a substantial population of women at high risk of breast (and other) cancer will be identified. Resources should be directed to this population so that optimum procedures for screening and prevention can be developed.
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PMID:Familial breast cancer. 151 Nov 56

Breast cancer is the most common cancer among American women. Because metastatic breast cancer is an incurable disease, efforts to decrease breast cancer mortality have focused on early detection and improved treatment. Identification and analysis of a specific genetic susceptibility could permit detection of susceptible women and greatly increase the understanding of the initial step that eventually leads to cancer. Because susceptibility loci have been recognized as sites that often are altered during tumor progression, the identification and cloning of such loci could be important in developing cancer therapies. In this article, the progress being made in segregation analysis, linkage analysis, and cloning of breast cancer susceptibility loci is reviewed. The evidence for genetic inheritance is most consistent with dominant inheritance for at least three major susceptibility loci. Proliferative breast disease has been hypothesized to be an inherited lesion in breast cancer kindreds with both premenopausal and postmenopausal probands. Currently, there are many genetic markers for mapping the human genome. Technologic advances have progressed from restriction fragment length polymorphisms to highly polymorphic markers. Using this technology, breast cancer susceptibility in some kindreds with an early onset has been shown to be linked to chromosome 17q. Gene isolation eventually will follow with an increased understanding of the percentage of breast cancer cases that are a result of this genetic locus. Li-Fraumeni syndrome, which often is expressed as breast cancer, is due to mutations in the p53 gene. Characterization of the syndrome and its relationship to the altered gene should proceed rapidly. There is also a group of families exhibiting a genetic susceptibility that is not due to either of these loci. Together, these findings indicate that there are at least three separate major loci segregating for breast cancer susceptibility. With the current initiative to map and sequence the entire human genome and the advances that recently have been reported, a detailed molecular understanding of breast cancer predisposition can be envisaged.
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PMID:Genetic predisposition to breast cancer. 151 30

81 candidate families with a rare genetic susceptibility to cancer called Li-Fraumeni syndrome were enrolled in an International Working Group. Review of 2,261 blood relatives revealed a total of 515 family members (23%) who had at least one confirmed cancer diagnosis. The major features of the syndrome, breast cancer, sarcomas of soft tissue and bone, brain tumour, leukemia and adrenal cortical carcinoma accounted for 74% of all the cancers recorded. 64% of all malignant tumours occurred before the age of 45 years. Among females, breast cancer accounted for 43 percent of all cases. There were 22 cases of bilateral metachronous breast cancer. Excluding individuals with bilateral breast cancer, 76 patients developed a second neoplasm, the most common being osteogenic sarcoma. The present study agrees with previous reports on the epidemiological aspects of Li-Fraumeni syndrome, the genetic defect of which has recently been found to involve the tumour-suppressor gene p53.
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PMID:[Li-Fraumeni syndrome and the p53 gene]. 155 56

Recent studies have demonstrated that families with the Li-Fraumeni syndrome carry inherited point mutations of the p53 gene. In the present study 25 families with strong histories of breast cancer were screened for the presence of such mutations. Polymerase chain reaction products of exons 5-9 of the p53 gene were examined by single-stranded conformational polymorphism analysis and, in addition, exon 7 was further screened by direct sequencing. No mutations were detected in constitutive DNA by either method. These results indicate that familial breast cancer does not usually result from germline point mutations in the p53 gene.
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PMID:No evidence for germline mutations in exons 5-9 of the p53 gene in 25 breast cancer families. 157 Jan 51

Recent evidence has implicated germ-line mutations of the p53 gene as the cause of cancer susceptibility in the Li-Fraumeni syndrome, associated with the development of breast cancer and other neoplasms. Furthermore, somatic mutations of the p53 gene have been detected in a high percentage of non-familial breast cancers. We therefore sought to identify potential carriers of p53 gene mutations in a cohort of patients with early onset breast cancer. We examined 126 consecutive patients who developed breast cancer at or before the age of 40 for mutations of p53 within conserved regions of the gene. One patient with an inherited germ-line mutation of the p53 gene was identified but the functional significance of this mutation was not clear. It thus appears that only a small percentage of patients with breast cancer under the age of 40 carry germ-line mutations of the p53 gene, an observation which has implications for potential screening and risk assessment in such patients.
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PMID:Inherited p53 gene mutations in breast cancer. 158 12

The cause of Li-Fraumeni syndrome, a rare group syndrome of familial cancers, has recently been identified. Patients with this inherited condition are highly susceptible to specific neoplasms, including early-onset breast cancers. The available evidence links Li-Fraumeni syndrome to inherited mutations of the tumor suppressor gene p53. Moreover, somatically acquired p53 mutations and gene deletions are common feature in breast cancer of sporadic origin. These findings suggest that germline p53 mutations are important in familial and, possibly sporadic, breast tumors. We have therefore screened lymphocyte DNA from 19 unrelated bilateral cancer patients for germline p53 mutations in exons 5, 6, 7 and 8. We have however detected no germline mutations by means of the single-strand confirmation polymorphism technique in any of the lymphocyte DNAs examined and conclude that p53 mutations are not generally involved in bilateral breast cancer.
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PMID:Absence of p53 germ-line mutations in bilateral breast cancer patients. 158 36

The constant denaturant gel electrophoresis technique was used to screen for TP53 germ line mutations in 237 women with breast carcinoma (167 unselected patients, 30 patients with at least one first-degree relative with breast cancer, and 40 women diagnosed with breast cancer before age 35). A germ line mutation at codon 181 was noted in one of the unselected patients and a codon 245 mutation in one of the early-onset patients. Both had a family history of breast cancer and other malignancies suggestive of Li-Fraumeni syndrome. The codon 245 mutation was also present in this patient's affected mother.
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PMID:Screening for germ line TP53 mutations in breast cancer patients. 159 32

Hereditary breast cancer is common and accounts for approximately 10-14% of all breast cancers. Knowledge of a family history of breast cancer may significantly influence diagnosis and therapy. Genetic heterogeneity has been demonstrated in familial breast cancer. Recently inherited mutations in the tumor suppressor gene p53, have been shown to be the underlying defect in the Li-Fraumeni syndrome. We have shown that defects in this gene also play a role in the predisposition to other familial breast cancers. The gene responsible for early onset familial breast and ovary cancer has recently been mapped to chromosome 17q21. For most of the sporadic breast cancers a multifactorial model, including variable genetic and environmental factors, has been considered. Two genetic risk factors which may predispose for a considerable portion of breast cancers are the gene causing ataxia telangiectasia (AT) and the gene that gives rise to proliferative breast disease (PBD). Identification of distinct genes enhancing the risk of breast cancer will give us the opportunity to identify high risk individuals. Such individuals may benefit from periodic examination affording the possibility of early diagnosis and treatment.
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PMID:Role of genetic factors in breast cancer susceptibility. 162 29

Germ-line mutations in the p53 tumor suppressor gene have been observed in patients with Li-Fraumeni syndrome, brain tumors, second malignancies, and breast cancers. It is unclear whether all of these mutations have inactivated p53 and thereby provide an increased risk for cancer. Therefore, it is necessary to establish the biological significance of these germ-line mutations by the functional and structural analysis of the resulting mutant p53 proteins. We analyzed the ability of seven germ-line mutant proteins observed in patients with Li-Fraumeni syndrome, second primary neoplasms, or familial breast cancer to block the growth of malignant cells and compared the structural properties of the mutant proteins to that of the wild-type protein. Six of seven missense mutations disrupted the growth inhibitory properties and structure of the wild-type protein. One germ-line mutation retained the features of the wild-type p53. Genetic analysis of the breast cancer family in which this mutation was observed indicated that this germ-line mutation was not associated with the development of cancer. These results demonstrate that germ-line p53 mutations observed in patients with Li-Fraumeni syndrome and with second malignancies have inactivated the p53 tumor suppressor gene. The inability of the germ-line p53 mutants to block the growth of malignant cells can explain why patients with these germ-line mutations have an increased risk for cancer. The observation of a functionally silent germ-line mutation indicates that, before associating a germ-line tumor suppressor gene mutation with cancer risk, it is prudent to consider its functional significance.
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PMID:Germ-line mutations of the p53 tumor suppressor gene in patients with high risk for cancer inactivate the p53 protein. 163 Nov 37

Previous emphasis in cancer research has been placed on genes in which activating mutations are found in experimental systems and sometimes in human tumors, and many of these genes are the cellular homologs of retroviral oncogenes. Studies of genes whose functions are necessary for maintenance of the normal cellular state, but for which loss-of-function mutations lead to tumor development, are limited. The latter genes have been variously termed 'tumor suppressor genes', 'recessive oncogenes', and 'anti-oncogenes', and each term defines a specific aspect of their properties and may not always be applicable. The retinoblastoma (RB) gene is the first such gene to be identified, and was isolated based on its chromosome localization and on the recessive nature of the tumor phenotype. That is, both wild type RB alleles must be inactivated in a single cell for neoplastic transformation to occur, and deletions at the chromosomal locus now known to contain RB are often found in retinoblastoma cells. Candidate genes for Wilms' tumor and neurofibromatosis type I have also been identified recently, and loss of function of these genes seems to be indicated for these diseases. Allelic loss of chromosome 17p13 is frequently observed in many tumor types. The p53 gene was mapped to this chromosomal region and has been shown to be a tumor suppressor gene, and germ-line mutations of p53 recently were found to be correlated with Li-Fraumeni syndrome, a syndrome characterized by multiple neoplasms. Rapid progress in studies of tumor suppressor genes points to diverse mechanisms for their functioning in the negative regulation of cell growth. A scenario depicting cell growth control by positive and negative regulators, based on new and emerging findings, is the main focus of this review.
Breast Cancer Res Treat 1991 Sep
PMID:Tumor suppressor genes: a new era for molecular genetic studies of cancer. 175 64


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