UMLS:C0006142 - FACTA Search

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

A familial early onset breast cancer gene (BRCA1) has been localized to chromosome 17q21. To aid in the identification of this gene a number of new microsatellite markers from the D17S857 to D17S78 region were isolated and characterized. These markers, along with previously published markers from the region, were localized on a physical map by STS content mapping of cosmids from the BRCA1 interval. This high-density STS map of the BRCA1 region will be useful for linkage studies of families with apparent inherited breast cancer and for loss of heterozygosity analysis of breast tumor DNAs.
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PMID:Characterization of 10 new polymorphic dinucleotide repeats and generation of a high-density microsatellite-based physical map of the BRCA1 region of chromosome 17q21. 771 91

The genetics of spontaneous breast cancer is reviewed. We have identified three regions of amplification and nine chromosomal arms with deletions in the genome. The significance and interrelations of these mutations is discussed with respect to the complex genetics of breast carcinoma. Recent work identifying a commonly deleted region between D17S846 and D17S746 is presented, which is approximately 0.5-1.0 Mb centromeric to the newly described BRCA1 gene candidate. Possible explanations for the different locations of our deleted region and the BRCA1 gene are presented.
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PMID:Mutations in breast cancer. 772 43

Chromosome 17q12-21 is known to contain a gene (or genes) which confers susceptibility to early-onset breast cancer and ovarian cancer (BRCA1). Identification and isolation of BRCA1 will likely provide the basis for increased understanding of the pathogenesis of breast and ovarian cancer, the development of targeted diagnostic and therapeutic approaches, and a means of screening women at risk of being BRCA1 mutation carriers. Genetic and physical maps of the BRCA1 candidate region have been largely completed and efforts are being directed at identification of candidate genes from within this region. We have begun the task of identifying transcripts from this region employing three complementary strategies. These include: 1) direct cDNA screening with cosmids derived from the BRCA1 region; 2) exon amplification; and 3) magnetic bead capture. Transcripts identified using these approaches are being characterized for: 1) tissue expression pattern; 2) the presence of genomic rearrangement in DNA derived from affected members of families believed to show linkage between breast cancer and genetic markers in the BRCA1 candidate interval; 3) altered size and/or expression pattern in RNA prepared from such individuals; and 4) homology to known genes or functional motifs. Germline mutations in affected individuals from these families will serve as presumptive evidence of BRCA1 identity.
Breast Cancer Res Treat 1995
PMID:Transcript identification in the BRCA1 candidate region. 774 39

The recognition of recurring sites of chromosome changes in malignancies has greatly facilitated the identification of genes implicated in the pathogenesis of human cancers. Based especially upon recent studies [1-4], it appears increasingly likely that a subset of recurring chromosome alterations will be recognized in human breast cancer. Currently recognized chromosome changes characterizing breast carcinoma include the recognition of cytologic features of gene amplification (e.g. double minutes [dmins] and homogeneously staining regions [HSRs]) [5-8]. As these and other chromosome regions are implicated in recurring abnormalities in breast cancer, it will become increasingly important to have band- or region-specific genomic libraries and probes in order to facilitate high resolution physical mapping and ultimately to clone breast cancer related genes [9]. Toward this end an important recent development in physical mapping has been the establishment of chromosome microdissection as a rapid and reproducible approach to rapidly isolate and characterize chromosome region-specific DNA, greatly facilitating the initial steps in positional cloning of disease-related genes [10-13]. In this brief report, we will highlight the application of chromosome microdissection to the generation of region-specific probes for both fluorescent in situ hybridization (FISH) and the generation of genomic microclone libraries. Additionally, efforts using this methodology to generate a microclone library encompassing the early onset breast/ovarian cancer (BRCA1) gene will be presented.
Breast Cancer Res Treat 1995
PMID:Microdissection and microcloning of chromosomal alterations in human breast cancer. 774 45

We searched for criteria that could indicate breast cancer families with a high prior probability of being caused by the breast/ovarian cancer susceptibility locus BRCA1 on chromosome 17. To this end, we performed a linkage study with 59 consecutively collected Dutch breast cancer families, including 16 with at least one case of ovarian cancer. We used an intake cut-off of at least three first-degree relatives with breast and/or ovarian cancer at any age. Significant evidence for linkage was found only among the 13 breast cancer families with a mean age at diagnosis of less than 45 years. An unexpectedly low proportion of the breast-ovarian cancer families were estimated to be linked to BRCA1, which could be due to a founder effect in the Dutch population. Given the expected logistical problems in clinical management now that BRCA1 has been identified, we propose an interim period in which only families with a strong positive family history for early onset breast and/or ovarian cancer will be offered BRCA1 mutation testing.
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PMID:Age at diagnosis as an indicator of eligibility for BRCA1 DNA testing in familial breast cancer. 775 75

We have examined 26 Canadian families with hereditary breast or ovarian cancer for linkage to markers flanking the BRCA1 gene on chromosome 17q12-q21. Of the 15 families that contain cases of ovarian cancer, 94% were estimated to be linked to BRCA1. In contrast, there was no overall evidence of linkage in the group of 10 families with breast cancer without ovarian cancer. A genetic recombinant in a breast-ovarian cancer family indicates a placement of BRCA1 telomeric to D17S776, and helps to define the region of assignment of the cancer susceptibility gene. Other cancers of interest that appeared in the BRCA1-linked families included primary peritoneal cancer, cancer of the fallopian tube, and malignant melanoma.
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PMID:Linkage analysis of 26 Canadian breast and breast-ovarian cancer families. 775 76

In our effort to identify BRCA1, 22 genes were cloned from a 1-Mb region of chromosome 17q21 defined by meiotic recombinants in families with inherited breast and/or ovarian cancer. Subsequent discovery of another meiotic recombinant narrowed the region to approximately 650 kb. Genes were cloned from fibroblast and ovarian cDNA libraries by direct screening with YACs and cosmids. The more than 400 cDNA clones so identified were mapped to cosmids, YACs, and P1 clones and to a chromosome 17 somatic panel informative for the BRCA1 region. Clones that mapped back to the region were hybridized to each other and consolidated into clusters reflecting 22 genes. Ten genes were known human genes, 5 were human homologs of known genes, and 7 were novel. Each gene was sequenced, compared to genes in the databases to find homologies, and analyzed for mutations in BRCA1-linked families and tumors. Eight mutations were found in tumors or families and not in controls. In the gene encoding alpha-N-acetylglucosaminidase, approximately 100 kb proximal to the 650-kb linked region, somatic nonsense, missense, and splice junction mutations occurred in 3 breast tumors, but not in these patients' germline DNA nor in controls. In an ets-related oncogene in the linked region, a missense mutation cosegregated with breast cancer in one family and was not observed in controls. In a human homolog of a yeast pre-mRNA splicing factor, 3 different mutations cosegregated with breast cancer in 3 families and were not observed in controls. In these and the other genes in the region, 36 polymorphic variants were observed in both cases and controls.
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PMID:22 genes from chromosome 17q21: cloning, sequencing, and characterization of mutations in breast cancer families and tumors. 777 26

A familial early-onset breast cancer gene (BRCA1) has been localized to chromosome 17q21. To characterize this region and to aid in the identification of the BRCA1 gene, a physical map of a region of 1.0-1.5 Mb between the EDH17B1 and the PPY loci on chromosome 17q21 was generated. The physical map is composed of a yeast artificial chromosome (YAC) and P1 phage contig with one gap. The majority of the interval has also been converted to a cosmid contig. Twenty-three PCR-based sequence-tagged sites (STSs) were mapped to these contigs, thereby confirming the order and overlap of individual clones. This complex physical map of the BRCA1 region was used to isolate genes by a number of gene identification techniques and to generate transcript maps of the region, as presented in the three accompanying manuscripts of Brody et al. (1995), Osborne-Lawrence et al. (1995), and Friedman et al. (1995).
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PMID:A YAC-, P1-, and cosmid-based physical map of the BRCA1 region on chromosome 17q21. 777 27

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

We have characterized expression of the familial breast and ovarian cancer gene, BRCA1, in cases of non-hereditary (sporadic) breast cancer and analyzed the effect of antisense inhibition of BRCA1 on the proliferative rate of mammary epithelial cells. BRCA1 mRNA levels are markedly decreased during the transition from carcinoma in situ to invasive cancer. Experimental inhibition of BRCA1 expression with antisense oligonucleotides produced accelerated growth of normal and malignant mammary cells, but had no effect on non-mammary epithelial cells. These studies suggest that BRCA1 may normally serve as a negative regulator of mammary epithelial cell growth whose function is compromised in breast cancer either by direct mutation or alterations in gene expression.
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PMID:Decreased expression of BRCA1 accelerates growth and is often present during sporadic breast cancer progression. 779 53

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