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)

We have developed a 2-stage protocol for BRCA1 and BRCA2 mutation screening from blood spot paper. Stage 1 screening was aimed to analyze patients at highest risk for the most common disease-associated sequence variants listed in the BIC database. Accordingly, stage1 testing implied detection of 18 disease- associated BRCA1 and 9 BRCA2 mutations by adapting the 5' nuclease assay to heterozygote screening. For stage 2 screening, we applied the conformation sensitive gel electrophoresis (CSGE) method by adapting this technique to automated heteroduplex analysis of BRCA1 and BRCA2 using fragment scanning on an ABI 377 sequencing device. Of the 120 patients with a family history of breast and ovarian cancer who took part in this study so far, 45 entered stage 1 testing. Disease-associated mutations were detected in 6 patients by stage 1 testing (13%). For these patients, the final result was available within 10 days. Mutation 300T-->G was found in 2 patients. One patient with mutation 3036delACAA in BRCA2 reported only 1 sister with a multifocal bilateral breast cancer. New disease-associated mutations were detected in 2 of the 114 patients who entered the stage 2 test (1.7%). Of particular interest was 1 patient who was diagnosed with a medullary breast carcinoma at age 39 and who had no family history of breast cancer. We conclude that pre-screening by 5' nuclease assay for the mutations most frequently seen in a given population represents a relatively effective first line of analysis. Subsequent detailed analysis by fluorescence conformation sensitive gel electrophoresis (F-CSGE) and fragment sequencing is a sensitive alternative to full nucleotide sequencing.
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PMID:Detection of BRCA1 and BRCA2 mutations in breast cancer families by a comprehensive two-stage screening procedure. 1069 17

An estimated 5-10% of all breast and ovarian cancers are due to an inherited predisposition, representing a rather large number of patients. In Spain 1/13-1/14 women will be diagnosed with breast cancer during their lifetime. Two major breast cancer genes, BRCA1 and BRCA2, have been identified. To date, several hundred pathogenic mutations in these two genes have been published or reported to the Breast Cancer Information Core, BIC database (http://www.nhgri.nih.gov/Intramural_research_Lab transfer/Bic/index.html). In the present study, 30 Spanish breast and breast/ovarian cancer families (29 from Galicia, NW Spain, and 1 from Catalonia, NE Spain) were screened for mutations in the BRCA1 and BRCA2 genes. The analysis of these genes was carried out by SSCP for shorter exons and direct sequencing in the case of longer ones. Mutations were found in 8 of the 30 families studied (26.66%). It is important to note that all mutations were detected within the BRCA1 gene: 330 A>G, 910_913delGTTC, 2121 C>T, 3958_3962delCTCAGinsAGGC, and 5530 T>A. The BRCA1 330 A>G mutation was found in four unrelated families and accounted for 50% of all identified mutations.
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PMID:Analysis of BRCA1 and BRCA2 in breast and breast/ovarian cancer families shows population substructure in the Iberian peninsula. 1201 98

The 185delAG and 5382insC founder mutations account for the majority of mutations identified in BRCA1 in Ashkenazi Jewish breast and breast-ovarian cancer families. Few non-founder BRCA1 mutations have been identified to date in these families. We initially screened a panel of 245 Ashkenazi Jewish breast-ovarian cancer families with an affected proband and at least one other case of breast or ovarian cancer for founder mutations in BRCA1 and BRCA2. Founder mutations were identified in 85 families (185delAG in 44 families, 5382insC in 16 families, and the BRCA2 6174delT in 25 families). The 160 negative families were then screened for the entire BRCA1 gene by a combination of DGGE and PTT. We identified one novel frameshift mutation in BRCA1 in exon 14 (4572del22) that truncated the protein at codon 1485. The family contained three cases of early-onset ovarian cancer (41 years, 43 years, and 52 years) and one case of breast cancer (at age 54 years subsequent to an ovarian cancer). In addition, three missense variants of unknown significance (exon 11 C3832T (P1238L), exon 15 G4654T (S1512I), and exon 15 G4755A (D1546N)) were found in single families. These missense variants have been previously identified in other families [BIC Database] and are considered to be "unclassified variants, favoring polymorphism." Non-founder BRCA1 mutations are rare in Ashkenazi Jewish breast/ovarian cancer families.
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PMID:A low frequency of non-founder BRCA1 mutations in Ashkenazi Jewish breast-ovarian cancer families. 1240 32

To date, over 6300 mutations in BRCA1, involving 1100 distinct sites, have been described and reported in the BIC (breast cancer information core) database. Since the first BRCA1 mutations in early-onset breast and ovarian cancer families were reported, several attempts to establish genotype-phenotype correlations for this gene have been reported. Moreover, in vitro data have suggested dominant-negative effects of putative mutant BRCA1 proteins over wild-type proteins. Genotype-phenotype correlations are not only important for predicting the clinical course of the disease and to allow tailor-made surveillance of individuals at risk, but also have implications for the elucidation of the molecular genetic mechanisms underlying BRCA1-mediated tumorigenesis and the development of gene transfer-based therapies. Here, we discuss genotype-phenotype correlations at the BRCA1 locus in mouse and man, and the functional aspects that may account for these observations.
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PMID:Of mice and (wo)men: genotype-phenotype correlations in BRCA1. 1291 53

Germline mutations in BRCA1 and BRCA2 account for majority of hereditary breast and ovarian cancer. The complete coding sequence analysis of both genes was carried out in 197 breast/ovarian cancer patients from high-risk families and 53 patients with sporadic breast/ovarian cancer. In summary, 59 mutations (16 different) in BRCA1 and 29 mutations (17 different) in BRCA2 were identified in unrelated breast and/or ovarian index cases. Using the BIC Database numbering, the most frequently found mutations in BRCA1 were c.5385dupC (22 cases), c.3819_3823delGTAAA (8 cases) and c.300T>G (6 cases). The most frequently found mutations in BRCA2 were c.8138_8142delCCTTT (7 cases) and c.8765_8766delAG (7 cases). Altogether, these 5 mutations represented 56.8% of all detected mutations. A broad spectrum of other mutations was detected including four novel mutations (c.2881delA in BRCA1; and c. 6677_6678delAA, c.6982dupT and c.8397_8400dupTGGG in BRCA2). Deleterious mutations were found in 80 (40.6%) of 197 high risk-families, in 6 (37.5%) of 16 patients with sporadic bilateral breast, ovarian or both cancers and in 2 (6.2%) of 32 women with sporadic early-onset unilateral breast cancer. No mutation was detected in 5 cases of sporadic early-onset unilateral ovarian cancer.
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PMID:BRCA1 and BRCA2 mutations in women with familial or early-onset breast/ovarian cancer in the Czech Republic. 1502 41

Somatic mutation of BRCA2 has been thought to be rare in breast cancers, though common allelic deletions in the BRCA2 locus (13q12-q13) imply an important role of somatic mutation in these tumors. Reasons of the reported rare incidence could be related to very few studies focusing on the mutational analysis of BRCA2 in sporadic tumors. The mutational status of the BRCA2 gene in exon11, the largest exon harboring the RAD51 interacting BRC domains which are critical for BRCA2 function, was screened by polymerase chain reaction/single strand conformation polymorphism (PCR-SSCP) analysis followed by direct sequencing. Tumor and paired normal tissue sample from 175 patients unselected for family history or age were taken after mastectomy for breast cancer and evaluated. There were 20 mutations of BRCA2 gene in exon 11 in 15 cases (15/175, 8.6%). Most mutations we identified were point mutation (19/20, 95%), except for one nucleotide insertion. Furthermore, among these mutations, missense mutations comprised 80% (16/20) of the BRCA2 mutations. All mutations we found were novel mutation after searched in the BIC database. There were three recurrent mutations at codon 1904; and two recurrent mutations at 1907, 1936, 1937 and 1968, respectively. The mutations were associated with ductal carcinoma in situ (P=0.038) and borderline with low histological grade (P=0.072). Besides, there were three cases possessing multiple mutations in the region we studied and one of them demonstrated aggressive lymph node metastasis. These findings implicated that somatic mutations of BRCA2 genes may play a significant role in the pathogenesis of breast carcinoma in Taiwan. In addition, those events were associated with some early clinicopathological features.
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PMID:High frequency of somatic missense mutation of BRCA2 in female breast cancer from Taiwan. 1576 93

A group of 103 sicilian patients with hereditary and familiar breast and/or ovarian cancer were screened for Breast Cancer 1 gene (BRCA1) mutations by direct sequencing PCR products spanning the coding region and partial intronic regions of the BRCA1 gene. In this study, we report a new germline mutation in BRCA1 gene, not previously reported in the BIC database, in a woman with ovarian cancer at 46 years old. Mother's proband has been diagnosed the same histotype of ovarian cancer at 42 age. The mutational analyses that shown a 4843delC frameshift mutation in exon 16 of BRCA1 gene was extended to other family members including the proband's brother and her two sons. Direct automatic sequencing of DNA extracted from the lymphocytes showed exactly the same 4843delC frameshift mutation only in the brother. In conclusion, the characterization of this mutation could help in the identification of a founder mutation of sicilian area and this may provide significant advantages for genetic counselling.
Breast Cancer Res Treat 2006 Mar
PMID:A new germline mutation in BRCA1 gene in a sicilian family with ovarian cancer. 1624 86

Alterations in BRCA1 and BRCA2 genes account for a large proportion of hereditary breast and ovarian cancers. Mutations and variants of unknown pathological significance have been identified in both genes; however, most of them have been studied only at the genomic level, and their effect on mRNA expression remains unknown. We identified two BRCA1 and six BRCA2 splice site variants, and one BRCA2 alteration at exon 14. Our aim was to ascertain the effect on RNA processing of the variants still unclassified. We found that BRCA1 c.IVS11 + 1G>A, BRCA2 c.7252_7272delinsTG, BRCA2 c.IVS2 + 1G>A, BRCA2 c.IVS13-2A>G, BRCA2 c.IVS21 + 4A>G, and BRCA2 c.9345G>A lead to aberrant transcripts in lymphocytes. Five of these six splice site variants caused a complete inactivation of the mutant allele because they produced frameshift similar to previously described deleterious exonic variants. Therefore, we consider them to be true deleterious mutations, possibly associated with an increased lifetime risk of breast or ovarian cancer. BRCA1 c.IVS17 + 6C>G, BRCA2 c.IVS12-9del4, and BRCA2 IVS1-9del3 represent rare variants, not disrupting normal mRNA processing. The last two BRCA2 genetic variants had not been reported in the Breast Cancer Information Core BIC database.
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PMID:RNA-based analysis of BRCA1 and BRCA2 gene alterations. 1701 78

The comparison of freshly collected breast cancer tissue DNA with that of the matched blood specimens of 144 patients was studied, and breast tissue from 30 unrelated normal women without cancer was selected as controls. The entire BRCA1 coding sequence was amplified by PCR with primers especially designed for comprehensive mutation screening by single-strand conformation polymorphism (SSCP) analysis. Amplification and electrophoresis were repeated for the confirmation of altered migration patterns. Variant bands were subsequently cut from gels, resuspended in distilled water, subjected again to PCR, and then sequenced. The amplified fragments of exon 2 and exon 3, which were not suitable for SSCP (>300bp) were sequenced directly. A total of 20 nucleotide alterations were observed in the breast cancer tissue DNA, and all were single-base substitutions. Sixteen missense mutations (which change the coding from one amino acid to another) have been identified throughout the gene. Ten cases of single nucleotide changes in BRCA1 detected in the study without records in the BIC database consisted of two missense mutations in exon 5 (273C>G, 287A>T), one polymorphism in exon 11 (2630T>G), three missense mutations in exon 11 (2532T>G, 3191C>G, 3876C>A), one missense mutation in exon 12 (4285G>A), two missense mutations in exon 17 (5115T>C, 5116A>G), and one missense mutation in exon 18 (5206T>A). The same analysis was carried out on matched blood specimens for each of the 20 nucleotide alterations revealed to be present in the germline. No nucleotide alterations were detected in the controls. These results suggest that somatic mutations of BRCA1 are infrequent in sporadic breast cancer, and nucleotide alterations were more easily observed in the breast cancer tissue DNA. It is likely that there are other important susceptibility genes that remain to be identified in patients with sporadic breast cancer.
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PMID:Mutation screening of the BRCA1 gene in sporadic breast cancer in southern Chinese populations. 1883 12

Variants of unknown significance (VUS) in BRCA1 and BRCA2 are common, and present significant challenges for genetic counseling. We observed that BRCA2: c.6853A>G (p.I2285V) (Breast Cancer Information Core [BIC] name: 7081A>G; http://research.nhgri.nih.gov/bic/) co-occurs in trans with the founder mutation c.5946delT (p.S1982RfsX22) (BIC name: 6174delT), supporting the published classification of p.I2285V as a neutral variant. However, we also noted that when compared with wild-type BRCA2, p.I2285V resulted in increased exclusion of exon 12. Functional assay using allelic complementation in Brca2-null mouse embryonic stem cells revealed that p.I2285V, an allele with exon 12 deleted and wild-type BRCA2 were all phenotypically indistinguishable, as measured by sensitivity to DNA-damaging agents, effect on irradiation-induced Rad51 foci formation, homologous recombination, and overall genomic integrity. An allele frequency study showed the p.I2285V variant was identified in 15 out of 722 (2.1%) Ashkenazi Jewish cases and 10 out of 475 (2.1%) ethnically-matched controls (odds ratio, 0.99; 95% confidence interval: 0.44-2.21; P=0.97). Thus the p.I2285V variant is not associated with an increased risk for breast cancer. Taken together, our clinical and functional studies strongly suggest that exon 12 is functionally redundant and therefore missense variants in this exon are likely to be neutral. Such comprehensive functional studies will be important adjuncts to genetic studies of variants.
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PMID:Functional redundancy of exon 12 of BRCA2 revealed by a comprehensive analysis of the c.6853A>G (p.I2285V) variant. 1979 81

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