UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human carcinomas are generally considered to develop through the accumulation of various genetic abnormalities. The major types of genetic alterations that are frequently observed in breast cancer are amplification of protooncogenes (MYC, ERBB2); mutation of TP53; and loss of heterozygosity on chromosomes 1, 3p, 8p, 11p, 13q, 17q, 17, and 22q. The latter may correspond to losses or inactivations of tumor suppressor genes. Recently, two major distinct breast susptibility genes were isolated, namely BRCA1 and BRCA2. We performed PCR-SSCP analysis to determine the role of the BRCA1 gene in Japanese breast cancer and investigated how multiple genetic alterations contribute to tumor development and/or progression in primary breast cancer, using a large number of tumor materials.
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PMID:[Genetic alterations and DNA-based diagnosis in breast cancer]. 870 40

Alterations in specific oncogenes and tumor suppressor genes that serve as surrogate markers of malignant transformation have been identified in ovarian cancers. Overexpression of the HER-2/neu oncogene occurs in approximately 30% of breast and ovarian cancers. In most studies, HER-2/neu overexpression has correlated with poor survival. Although mutation of the K-ras oncogene has been found in some mucinous ovarian cancers, mutations in this gene appear to be more common in borderline ovarian tumors. Amplification of c-myc occurs in approximately 30% of ovarian cancers and is more frequently seen in serous cancers. Mutation of the p53 tumor suppressor gene, with resultant overexpression of mutant p53 protein, occurs in 50% of Stage III/IV and 15% of Stage I/II ovarian cancers. Most p53 mutations in ovarian cancers are transitions, which suggests that they arise spontaneously rather than due to exogenous carcinogens. In contrast to the acquired genetic alterations described above that are a feature of sporadic ovarian cancers, a small fraction of epithelial ovarian cancers arise due to inherited genetic defects. Recently, the BRCA1 tumor suppressor gene on chromosome 17q was identified and shown to be responsible for some cases of hereditary breast and ovarian cancer. Families in which mutations in this gene exist are usually characterized by early age of disease onset. Presently, it remains unclear what fraction of hereditary ovarian cancers are due to BRCA1 mutations.
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PMID:Biomarkers in the ovary. 874

The 17q-linked breast and ovarian cancer susceptibility gene (BRCA1) is believed to function as a tumor suppressor gene (Miki et al., 1994). In this report BRCA1 RNA expression has been analysed in adult mouse tissues with detailed attention to its expression in prepuberal and adult testis. Measurements of BRCA1 mRNA levels in highly purified somatic cells of the testis and in staged germ cells showed that high level BRCA1 mRNA expression is limited to the germ cells. Within the germ cell lineage, the high level expression was detected in meiotic cells, specifically pachytene spermatocytes and in post-meiotic round spermatids. This is in contrast to premeiotic germ cells which were found to express little or no BRCA1 mRNA. These observations, considered together with recent data on the expression of BRCA1 in breast epithelium, argues against a function for BRACA1 in early progenitor cells in both tissues and cells attention instead to roles intimately associated with terminal differentiation or with final rounds of cell division.
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PMID:BRCA1 mRNA is expressed highly during meiosis and spermiogenesis but not during mitosis of male germ cells. 876 Mar 7

Insight into the function of the BRCA1 tumor suppressor gene may be gained by studying its regulation. In this study, the expression of BRCA1 was examined as a function of the cell cycle in normal and tumor-derived breast epithelial cells. Cells arrested in G(zero) or early in G1 contained low levels of BRCA1 mRNA. After release, populations of cells reached maximal levels of BRCA1 in late G1 and S phase. Induction of BRCA1 was shown to occur before the onset of DNA synthesis by synchronizing cells at the G1-S boundary. Levels of the BRCA1 protein were regulated in a similar manner. No difference was observed between primary cultures of normal mammary epithelial cells and immortalized tumor-derived cell lines. These results suggest that BRCA1 may function at the G1-S checkpoint.
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PMID:BRCA1 expression is induced before DNA synthesis in both normal and tumor-derived breast cells. 878 Aug 84

To investigate the molecular mechanisms of tuberous sclerosis (TSC) histopathologic lesions, we have tested for loss of heterozygosity the two TSC loci (TSC1 and TSC2) and seven tumor suppressor gene-containing regions (TP53, NF1, NF2, BRCA1, APC, VHL, and MLM) in 20 hamartomas from 18 TSC patients. Overall, eight angiomyolipomas, eight giant cell astrocytomas, one cortical tuber, and three rhabdomyomas were analyzed. Loss of heterozygosity at either TSC locus was found in a large fraction of the informative patients, both sporadic (7/14) and familial (1/4). Interestingly, a statistically significant preponderance of loss of heterozygosity at TSC2 was observed in the sporadic group (P < 0.01). Among the possible explanations considered, the bias in the selection for TSC patients with the most severe organ impairment seems particularly appealing. According to this view, a TSC2 defect might confer a greater risk for early kidney failure or, possibly, a more rapid growth of a giant cell astrocytoma. None of the seven antioncogenes tested showed loss of heterozygosity, indicating that the loss of either TSC gene product may be sufficient to promote hamartomatous cell growth. Finally, the observation of loss of heterozygosity at different markers in an astrocytoma and in an angiomyolipoma from the same patient might suggest the multifocal origin of the second-hit mutation.
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PMID:Apparent preferential loss of heterozygosity at TSC2 over TSC1 chromosomal region in tuberous sclerosis hamartomas. 882 21

BRCA1 has been identified as a tumor suppressor gene that is mutated in many cases of inherited breast and ovarian cancer. Recent data suggest that multiple splice forms of BRCA1 exist, but the structure and function of these alternative transcripts have not been elucidated. By sequence analysis of reverse transcription-PCR products, we have determined that a major splice form of BRCA1 expressed in malignant and nonmalignant breast epithelial cells contains an in-frame deletion of 3309 nucleotides from exon 11. A second alternative splice event results in the in-frame deletion of the 123 nucleotides that make up exons 9 and 10. These splice variants are found on polysomes and are therefore predicted to encode 80-85-kDa BRCA1-derived proteins lacking approximately 60% of the internal amino acids that constitute full-length BRCA1.
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PMID:Characterization of functional messenger RNA splice variants of BRCA1 expressed in nonmalignant and tumor-derived breast cells. 884 Sep 64

Identifying the conditions and kinetics of the induction of BRCA2 gene expression may implicate roles for the function of the tumor suppressor gene. In this study, expression of BRCA2 mRNA is shown to be regulated by the cell cycle and associated with proliferation in normal and tumor-derived breast epithelial cells. Cells arrested in G(0) or early G1 contained low levels of BRCA2 mRNA. After release into a proliferating state, cells produced maximum levels of BRCA2 mRNA in late G1 and the S-phase. Similar cell cycle control of BRCA2 was observed in fractions of exponentially growing cells isolated by centrifugal elutriation. Expression of BRCA2 was shown to be independent of bulk DNA synthesis. In addition, the kinetics of BRCA2 mRNA up-regulation appeared to be similar to those of BRCA1, suggesting that the two genes could be commonly controlled. These results imply that these two tumor suppressor genes are utilized during growth and may have a protective role in cellular proliferation.
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PMID:Cell cycle control of BRCA2. 884 Sep 67

HER-2/neu (c-erbB-2) gene amplification based on Southern blotting or immunohistochemistry has been shown to be predictive of poor outcome in breast cancer occurring in women over 40, but there is little data on the role of HER-2/neu in young women with breast cancer, many of whom may have inherited BRCA1 or other predisposing genes. The present study used fluorescent in situ hybridization (FISH) on archival specimens of breast cancer from 37 women under the age of 40 to evaluate the role of HER-2/neu amplification in this cohort, and to also evaluate the efficacy of FISH for quantifying amplification. The frequency of primary tumors with a greater than fourfold increase in gene copy number was found to be 38%, which is similar to the frequency of amplification reported in Southern blot studies in older women. However, the greater sensitivity of FISH enabled detection of low level amplification (more than 2 but less than 8 gene copies), which was found in an additional 30% of the tumors. Patients with low level amplification demonstrated a 54% recurrence rate, compared to 86% in those with high amplification and 17% in those with no amplification. HER-2/neu amplification appeared to be more prognostic of recurrence than nodal status, with 45% of node negative tumors recurring compared to 62% of those which were node positive, nor was tumor size predictive of recurrence in this cohort since tumors of 2 cm or less recurred in 44% of cases compared to 57% of those larger than 2 cm. Thus, this study demonstrates that FISH is a reproducible and sensitive technique for detecting HER-2/neu amplification, and that amplification of the oncogene is the strongest independent indicator of recurrence of breast cancer in young women.
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PMID:FISH detection of HER-2/neu oncogene amplification in early onset breast cancer. 887 29

The breast cancer susceptibility gene BRCA1 encodes an 1863-amino acid protein that acts as a tumor suppressor. The biochemical function of BRCA1 is unknown, and there are conflicting results describing its subcellular location. We have identified a 220-kDa protein, which is reactive with three antibodies raised against the amino- and carboxyl-terminal regions of BRCA1. Immunoflourescence staining with an antibody to the carboxyl terminus of BRCA1 localized the protein to the nucleus of breast, ovarian, and cervical carcinoma-derived cell lines. A similar result was observed by biochemical subcellular fractionation that indicated that the 220-kDa protein was localized primarily to the nucleus of cell lines established from breast carcinomas. In addition to the 220-kDa protein, one antibody, C-20, also recognized a 180-kDa protein in MDA-MB-468 total cell lysates that was not detected by the other two antibodies. Several observations suggest the 180-kDa protein is the epidermal growth factor (EGF) receptor: (i) C-20 reacted avidly with a 180-kDa protein immunoprecipitated by an antibody to the EGF receptor; (ii) an EGF receptor antibody detected a 180-kDa protein immunoprecipitated by C-20; (iii) the affinity purified EGF receptor was both immunoprecipitated and detected on immunoblots by the C-20 antibody but not another BRCA1 antibody; (iv) similar phosphopeptide maps were generated from the EGF receptor and the 180-kDa protein immunoprecipitated by C-20, and this peptide map was distinct from the 220-kDa phosphoprotein; and (v) the C-20 immunizing peptide bears sequence identity to the EGF receptor. These results indicate that BRCA1 is a 220-kDa nuclear protein and that the 180-kDa protein reported previously may be unrelated to BRCA1.
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PMID:Subcellular localization and analysis of apparent 180-kDa and 220-kDa proteins of the breast cancer susceptibility gene, BRCA1. 891 Apr 95

Over 100 distinct disease-associated mutations have been identified in the breast-ovarian cancer susceptibility gene BRCA1. Loss of the wild-type allele in > 90% of tumors from patients with inherited BRCA1 mutations indicates tumor suppressive function. The low incidence of somatic mutations suggests that BRCA1 inactivation in sporadic tumors occurs by alternative mechanisms, such as interstitial chromosomal deletion or reduced transcription. To identify possible features of the BRCA1 genomic region that may contribute to chromosomal instability as well as potential transcriptional regulatory elements, a 117,143-bp DNA sequence encompassing BRCA1 was obtained by random sequencing of four cosmids identified from a human chromosome 17 specific library. The 24 exons of BRCA1 span an 81-kb region that has an unusually high density of Alu repetitive DNA (41.5%), but relatively low density (4.8%) of other repetitive sequences. BRCA1 intron lengths range in size from 403 bp to 9.2 kb and contain the intragenic microsatellite markers D17S1323, D17S1322, and D17S855, which localize to introns 12, 19, and 20, respectively. In addition to BRCA1, the contig contains two complete genes: Rho7, a member of the rho family of GTP binding proteins, and VAT1, an abundant membrane protein of cholinergic synaptic vesicles. Partial sequences of the 1A1-3B B-box protein pseudogene and IFP 35, an interferon induced leucine zipper protein, reside within the contig. An L21 ribosomal protein pseudogene is embedded in BRCA1 intron 13. The order of genes on the chromosome is: centromere-1FP 35-VAT1-Rho7-BRCA1-1A1-3B-telomere.
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PMID:Complete genomic sequence and analysis of 117 kb of human DNA containing the gene BRCA1. 893 27

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