UMLS:C1140680 - FACTA Search

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Query: UMLS:C1140680 (ovarian cancer)
28,141 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thirty-seven families with four or more cases of breast cancer or breast and ovarian cancer were analyzed for mutations in BRCA1. Twelve different germ-line mutations, four novel and eight previously observed, were detected in 16 families. Five families of Ashkenazi Jewish descent carried the 185delAG mutation and shared the same haplotype at eight polymorphic markers spanning approximately 850 kb at BRCA1. Expressivity of 185delAG in these families varied, from early-onset breast cancer without ovarian cancer. Mutation 4184delTCAA occurred independently in two families. In one family, penetrance was complete, with females developing early-onset breast cancer or ovarian cancer and the male carrier developing prostatic cancer, whereas, in the other family, penetrance was incomplete and only breast cancer occurred, diagnosed at ages 38-81 years. Two novel nonsense mutations led to the loss of mutant BRCA1 transcript in families with 10 and 6 cases of early-onset breast cancer and ovarian cancer. A 665-nt segment of the BRCA1 3'-UTR and 1.3 kb of genomic sequence including the putative promoter region were invariant by single-strand conformation analysis in 13 families without coding-sequence mutations. Overall in our series, BRCA1 mutations have been detected in 26 families: 16 with positive BRCA1 lod scores, 7 with negative lod scores (reflecting multiple sporadic breast cancers), and 3 not tested for linkage. Three other families have positive lod scores for linkage to BRCA2, but 13 families without detected BRCA1 mutations have negative lod scores for both BRCA1 and BRCA2.
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PMID:Novel inherited mutations and variable expressivity of BRCA1 alleles, including the founder mutation 185delAG in Ashkenazi Jewish families. 853 57

The majority of multiple-case families that segregate both breast and ovarian cancer in a dominant fashion are due to mutations in the BRCA1 gene on chromosome 17q. In this paper, we have combined penetrance estimates for BRCA1 with the results of two population-based genetic epidemiological studies to estimate the gene frequency of BRCA1. On the assumption that the excess risk of ovarian cancer in first degree relatives of breast cancer patients and the breast cancer excess in relatives of ovarian cancer patients are both entirely accounted for by BRCA1, we estimate that the BRCA1 gene frequency is 0.0006 (95% confidence interval [O.002-0.002]) and that the proportion of breast cancer cases in the general population due to BRCA1 is 5.3% below age 40 years, 2.2% between ages 40 and 49 years, and 1.1% between ages 50 and 70 years. The corresponding estimates for ovarian cancer are 5.7%, 4.6%, and 2.1%, respectively. Our results suggest that the majority of breast cancer families with less than four cases and no ovarian cancer are not due to rare highly penetrant genes such as BRCA1 but are more likely to be due either to chance or to more common genes of lower penetrance.
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PMID:Estimates of the gene frequency of BRCA1 and its contribution to breast and ovarian cancer incidence. 853 76

Japanese breast cancer families were collected and classified into the following 7 types according to the onset age and the distribution of other cancers in the family lines; early-onset type, late-onset type, familial breast-ovarian cancer type, familial breast-prostate cancer type, familial breast-thyroid cancer type, familial male and female breast cancer type and multiple primary cancer type. We have detected no p53 germ line mutations in the patients from these families. Linkage with BRCA1 was not detected in any single families. These data indicate that neither BRCA1 or p53 is a major susceptible gene in Japanese familial breast cancer. However, in the two site-specific breast cancer families, the same nonsense mutation of the BRCA1 gene was detected.
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PMID:[Familial breast cancer]. 853 41

An estimated 5 to 10% of all breast and ovarian cancer is attributable to inherited mutations in two highly penetrant autosomal dominant susceptibility genes, BRCA1 and BRCA2. BRCA1 confers higher risk of ovarian cancer and BRCA2 much higher risk of male breast cancer. With the exception of missense mutations in the RING finger near the amino terminus of BRCA1, virtually all germline mutations in the gene cause the novel BRCA1 protein to be prematurely truncated. Approximately 90% of breast tumors in BRCA1 families, 50% of unselected breast tumors and 65-80% of unselected ovarian tumors have lost one allele of BRCA1 by somatic deletion. Very few tumors have detectable somatic point mutations in BRCA1. Inhibition of BRCA1 expression in mammary epithelial cell lines also suggests that BRCA1 may act as a tumor suppressor. The biological function of BRCA1 is still unknown, although identification of a patient homozygous for an inherited BRCA1 mutation suggests that the gene's function may be essential only to specific tissues. At least two other genes, P53 and the androgen receptor, are responsible for inherited predisposition to breast cancer in rare families. Several epidemiologic studies suggest that individuals carrying rare alleles at a minisatellite flanking the HRAS locus are at increased risk of cancer, including breast cancer. Finally, preliminary epidemiologic studies also suggest that individuals heterozygous for mutations in the ataxia telangiectasia gene may be at increased risk of breast cancer.
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PMID:Inherited breast and ovarian cancer. 854 81

Studies of the etiology, early detection, and prevention of breast cancer reported in the past year are reviewed in this paper. Studies of the etiology of breast cancer include reports on genetic and environmental factors. A major advance in the study of inherited forms of breast and ovarian cancer occurred with the identification of the BRCA1 gene. A second breast cancer susceptibility gene, the BRCA2 gene, was localized to chromosome 13q12-13. Multiple mutations in the BRCA1 gene have been identified, presenting a challenge for the development of predictive testing. Controversy continues over the association between hormone replacement therapy and the development of breast cancer. A study of exercise suggests a strong protective effect against the development of early onset breast cancer. Recent studies have failed to find a strong link between dietary fat intake and the development of breast cancer. A meta-analysis of studies of the efficacy of screening for the prevention of breast cancer mortality demonstrates a significant reduction in mortality among women 50 years of age and older. A lowering of breast cancer mortality for women aged 40 to 49 was only demonstrated after 10 to 12 years of follow-up. The risks and benefits of tamoxifen therapy, a potential breast cancer chemoprevention agent, continue to be clarified. Adverse effects on the endometrium, including an increased risk of endometrial cancer, have been reported. Beneficial effects include an improved cardiovascular risk profile and preservation of bone mineral density among postmenopausal women.
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PMID:Epidemiology, prevention, and early detection of breast cancer. 854 94

Recent advances in our understanding of the genetic characteristics of cancer will change approaches to genetic screening and counselling. Cancer results from multiple, cumulative mutations in genes that regulate cell replication and differentiation. In familial cancer a germ-line mutation is passed on in an autosomal dominant pattern, but cancer will develop in people who inherit the defect only if other mutations also occur in susceptible somatic cells. The tumour-suppressor gene known as BRCA1 is thought to affect half of those families who have an inherited breast cancer syndrome and most families with a breast and ovarian cancer syndrome. Another gene, BRCA2, is thought to affect most of the remaining families with a breast-cancer-only syndrome. Hereditary nonpolyposis colon cancer (HNPCC) is caused by mutations in surveillance genes that protect DNA from the spontaneous errors that occur during cell division. Because there are no outcome data on which to base practice guidelines for genetic screening or management of asymptomatic carriers in families at risk, testing should be restricted to research settings.
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PMID:Genetic counselling and testing for susceptibility to breast, ovarian and colon cancer: where are we today? 854 3

The majority of, but not all, women with mutations in the BRCA1 gene will be affected with breast or ovarian cancer by the age of 70. To establish whether known risk factors modify susceptibility to cancer in these women, we have studied the reproductive histories of 333 North American women who were found by haplotype analysis to carry BRCA1 mutations. An increased risk for breast cancer was associated with low parity and with recent birth cohort. The risk of ovarian cancer decreased with increasing age at last childbirth; however, in contrast to the case for sporadic cancer, the risk of ovarian cancer in BRCA1 carriers was found to increase significantly with increasing parity.
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PMID:Risk modifiers in carriers of BRCA1 mutations. 855 Feb 41

We have analyzed 20 breast-ovarian cancer families, the majority of which show positive evidence of linkage to chromosome 17q12 for germ-line mutations in the BRCA1 gene. BRCA1 mutations cosegregating with breast and ovarian cancer susceptibility were identified in 16 families, including 1 family with a case of male breast cancer. Nine of these mutations have not been reported previously. The majority of mutations were found to generate a premature stop codon leading to the formation of a truncated BRCA1 protein of 2%-88% of the expected normal length. Two mutations altered the RING finger domain. Sequencing of genomic DNA led to the identification of a mutation in the coding region of BRCA1 in 12 families, and cDNA analysis revealed an abnormal or missing BRCA1 transcript in 4 of the 8 remaining families. A total of eight mutations were associated with a reduced quantity of BRCA1 transcript. We were unable to detect BRCA1 mutations in 4 of the 20 families, but only 1 of these was clearly linked to BRCA1. It is expected that the majority of clear examples of the breast-ovarian syndrome will be associated with germ-line mutations in the coding region of BRCA1.
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PMID:A high incidence of BRCA1 mutations in 20 breast-ovarian cancer families. 855 67

The BRCA1 breast-ovarian cancer susceptibility gene was identified recently. Germline mutations in BRCA1 may be responsible for as many as 5% of breast and ovarian cancers. Inherited alterations confer up to a 94% risk of developing breast and/or ovarian cancer by age 70. With the discovery of BRCA1, there will be a heavy demand for genetic testing. Because of the large size of the gene and the distribution of reported mutations, scientists face considerable technical problems in developing widely available screening tests; clinicians will face even greater ethical problems in applying them. In the context of research programs, women with BRCA1 mutations are already being identified, and their physicians are confronted with a number of complex medical, ethical, legal, and social issues. Obstetricians will be faced with counseling parents regarding prenatal testing for specific BRCA1 mutations. Although it is difficult to formulate straightforward guidelines regarding prenatal BRCA1 testing, clinicians and health care providers must be familiar with the nuances of the debate so that these issues can be discussed wisely with patients. As with many ethically challenging problems in medicine, individual clinicians and their patients will have to work together to determine the course of action with which they are most comfortable. Although elective termination of a pregnancy with a germline mutation in BRCA1 is an option, experience with other adult-onset diseases suggests that only a minority of parents will choose this option.
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PMID:An inevitable dilemma: prenatal testing for mutations in the BRCA1 breast-ovarian cancer susceptibility gene. 855 44

The breast and ovarian cancer susceptibility gene, BRCA1, has been cloned and shown to encode a zinc-finger protein of unknown function. Mutations in BRCA1 account for at least 80% of families with both breast and ovarian cancer, as well as some non-familial sporadic ovarian cancers. The loss of wild-type BRCA1 in tumours of individuals carrying one nonfunctional BRCA1 allele suggests that BRCA1 encodes a tumour suppressor that may inhibit the proliferation of mammary epithelial cells. To examine the role of BRCA1 in normal tissue growth and differentiation, and to generate a potential model for the cancer susceptibility associated with loss of BRCA1 function, we have created a mouse line carrying a mutation in one Brca1 allele. Analysis of mice homozygous for the mutant allele indicate that Brca1 is critical for normal development, as these mice died in utero between 10 and 13 days of gestation (E10-E13). Abnormalities in Brca1-deficient embryos were most evident in the neural tube, with 40% of the embryos presenting with varying degrees of spina bifida and anencephaly. In addition, the neuroepithelium in Brca1-deficient embryos appeared disorganized, with signs of both rapid proliferation and excessive cell death.
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PMID:Brca1 deficiency results in early embryonic lethality characterized by neuroepithelial abnormalities. 856 59

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