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

In order to evaluate the role of inherited BRCA2 mutations in American families--particularly the appearance in America of European founder mutations--the BRCA2 coding sequence, 5' UTR, and 3' UTR were screened in 22 Caucasian American kindreds with four or more cases of breast or ovarian cancer. Six mutations were found that cause a premature-termination codon; four of them have been reported elsewhere, and two are novel. In the four families with previously seen mutations, the distinct lineages at high risk of cancer were of Dutch, German, Irish, and Ashkenazi Jewish ancestry; mutations in Europe reflect these ancestries. The families with novel mutations were Puerto Rican Hispanic (exon 9 deletion 995delCAAAT) and Ashkenazi Jewish (exon 11 deletion 6425delTT). Among female BRCA2-mutation carriers, risks of breast cancer were 32% by age 50 years, 67% by age 70 years, and 80% by age 90 years, yielding a lifetime risk similar to that for BRCA1 but an older distribution of ages at onset. BRCA2 families also included multiple cases of cancers of the male breast (six cases), ovary (three cases), fallopian tube (two cases), pancreas (three cases), bladder (two cases), and prostate (two cases). Among 17 Ashkenazi Jewish families with four or more breast or ovarian cancers, 9 families (including 3 with ovarian cancer and 1 with male breast cancer) carried none of the three ancient mutations in BRCA1 or BRCA2. To date, both BRCA2 and BRCA1 have been screened by SSCA, supplemented by the protein-truncation test, in 48 families with four or more breast or ovarian cancers. Mutations have been detected in BRCA1 in 33 families, in BRCA2 in 6 families, and in neither gene in 9 families, suggesting both the probable cryptic nature of some mutations and the likelihood of at least one other BRCA gene.
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PMID:BRCA2 in American families with four or more cases of breast or ovarian cancer: recurrent and novel mutations, variable expression, penetrance, and the possibility of families whose cancer is not attributable to BRCA1 or BRCA2. 915 Jan 48

We have previously observed that the mRNA of selected genes involved in nucleotide excision repair appear to be coordinately expressed in human tissues from patients with ovarian cancer, testicular cancer, malignant brain tumors, and other malignancies. Such genes include ERCC1, XPA, XPB, XPD, XPF, and XPG. Coordinate mRNA expression appears to be most impressive in non-malignant tissues. We therefore began to explore possible reasons why such coordinate expression should occur. DNA sequences for the above noted genes were obtained from GeneBank. Two different software programs were applied to the DNA sequence, to the area 5' to the start of exon I of each gene. Analyses were performed by computer. The length of the 5' area assessed, was based on previous reports that determined what portion of the genomic sequence comprised the 5' UTR of the promoter of the respective gene. Based on this approach, potential DNA binding sites for no less than three dozen proteins, were identified in the 5'-flanking region of each of the NER genes studied. For each gene, potential binding sites for activator proteins and for repressor proteins were identified. The 5'-flanking regions for each gene noted above, had binding sites in common for 14 proteins with transcription modulatory activity. Eleven of these proteins are known for activator activity; two are reported to have repressor activity, and one has both repressor and activator function. These data suggest a possible molecular basis for the previously observed coordinate mRNA expression of selected NER genes in human tissue specimens.
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PMID:Computer based analyses of the 5'-flanking regions of selected genes involved in the nucleotide excision repair complex. 1089 49

Mutations in the 5' UTR which cause increment/decrement of translation efficiency have been recently described as a novel molecular mechanism of disease. Alterations in the consensus sequence for the translation initiation may promote context-dependent leaky scanning of ribosomes and/or initiation from a downstream AUG codon. Initiation of translation from a downstream in-frame AUG codon in BRCA1 gene was recently identified in normal cells and possibly in breast cancer. Here we present further insight into BRCA1 translational pathophysiology investigating the role of the canonical structure of the initiation consensus sequence of BRCA1. We have analysed the effect of a somatic point mutation (117 G>C) in position -3 with respect to the AUG of the BRCA1 gene, identified in a highly aggressive sporadic breast cancer. We constructed chimeric genes encoding the luciferase reporter sequence downstream of the wild type or the mutated BRCA1 5'UTR. These transcripts were tested for their activity in in vitro and in vivo systems. In in vitro transcription/translation assays the estimated translation efficiency of the construct with the mutated BRCA1 5'UTR was 30-50% lower than that with the wild type BRCA1 5'UTR. The same chimeric genes were analysed for their expression in vivo by transient transfection in human cells. While the two constructs were equally transcribed, the plasmid carrying the mutated sequence produced 70% less luciferase activity compared to the wild type sequence. Finally, to obtain a direct evaluation on translational efficiency in vivo, we analysed mRNA translation on translationally active and non-active ribosomes separated from transfected cells. Mutant mRNA was partially localized in subpolysomal particles analytically confirming a polysome recruitment defect. Thus, characterization of BRCA1 5'UTR and translation efficiency seems to provide new insight into BRCA1 role in breast and ovarian cancer pathogenesis.
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PMID:A somatic mutation in the 5'UTR of BRCA1 gene in sporadic breast cancer causes down-modulation of translation efficiency. 1149 57

Human ovarian cancer cells and tissues were examined for the presence or absence of a 42-bp splicing variant of ERCC1 gene, and for a possible functional role of this 42-bp sequence. This specific sequence exists in exon I, the 5'-UTR of the gene. Loss of this 42-bp sequence was associated with increased ERCC1 mRNA expression, in an assessment of 121 ovarian cancer specimens (p2<10(-6)). In cells in tissue culture, the absence of the 42-bp segment was associated with a twofold increased ability to drive transcription in a Luciferase reporter system. Protein can be demonstrated in ovarian cancer cells based on EMSA analysis. Computer analysis shows that this 42-bp sequence contains several binding sites, including a core-binding domain for protein RFX1, transcriptional repressor. These preliminary results lay the groundwork in determination of potential roles for a negative regulatory element in NER repair pathway.
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PMID:An ERCC1 splicing variant involving the 5'-UTR of the mRNA may have a transcriptional modulatory function. 1175 47

Antizyme is a negative regulator of cellular polyamines. The gene for antizyme (OAZ1) is mapped to 19p13.3, where frequent allelic imbalance (AI) is observed in ovarian cancer. The potential role of antizyme 1 in ovarian carcinogenesis was addressed in this study. Mutations of the OAZ1 gene, including the entire coding region and associated promoter region, were examined in 50 primary ovarian tumors and 8 ovarian cancer cell lines by PCR-SSCP and sequencing analyses. A missense mutation in exon 1 and a nucleotide change at the 3'-UTR were detected in an ovarian cancer cell line and its derivative cisplatin resistant cell line. No somatic mutation was detected in primary ovarian tumors, although 7 polymorphic sites were identified. AI of the OAZ1 gene was detected in 7 of 30 informative cases of primary ovarian cancer (23%). Subsequent multiplex fluorescent microsatellite analysis at 7 loci on 19p and at 4 loci on 19q in 50 primary ovarian tumors revealed a commonly deleted region, approximately 4.7 Mb, between the D19S424 and D19S884 loci on 19p13.3 in the vicinity of the OAZ1 locus. The most frequent AI was observed at D19S216 (50%). These results suggest that one or more tumor suppressor genes other than OAZ1 exist near the D19S216 locus on 19p13.3.
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PMID:A commonly deleted region in ovarian cancer on chromosome 19p13.3, not including the OAZ1 gene. 1288 89

The identification of an interaction between BRCA1 and acetyl-CoA carboxylase alpha (ACCalpha), a key enzyme in lipid synthesis, led us to investigate the role of ACCalpha in breast cancer development, where it might contribute to the energy-sensing mechanisms of malignant transformation. In order to investigate if certain ACCalpha alleles may be high-risk breast cancer susceptibility alleles, 37 extended breast and breast/ovarian cancer families negative for BRCA1 and BRCA2 mutations were exhaustively screened for sequence variations in the entire coding sequence, intron-exon junctions, 5'UTR, 3'UTR (untranslated regions) and the promoter regions of the ACCalpha gene. Two possibly disease-associated ACCalpha variants were each identified in a single family and were not present in 137 controls. Multiple polymorphisms were detected in breast cancer families, including 12 single nucleotide polymorphisms where the frequency of the rare allele estimated in controls was >0.10. The observed lack of variation in the ACCalpha coding region along with the presence of extended areas of linkage disequilibrium and low haplotype diversity indicates an overall high preservation of this gene. The prevalence of the ACCalpha haplotypes composed of common polymorphisms was determined in 453 breast cancer cases and 469 female controls. One haplotype was found to be associated with a substantial and highly significant increase in breast cancer risk (odds ratio = 3.10, 95% confidence interval 1.87-5.14, P < 0.0001), whereas three other haplotypes were found to have a protective effect. Our results indicate that mutations in the ACCalpha gene are unlikely to be a major cause of high-risk breast cancer susceptibility; however, certain common ACCalpha alleles may influence breast cancer risk. This study provides the first insight into the involvement of the ACCalpha gene in breast cancer predisposition and calls for further, large-scale studies that will be needed to understand the role of ACCalpha in tumour susceptibility and development.
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PMID:Acetyl-CoA carboxylase alpha gene and breast cancer susceptibility. 1533 68

Our previous studies revealed a splicing variant (lacking a 42 base pair segment) within the 5'-UTR of the ERCC1 gene, a critical component of the nucleotide excision repair (NER) pathway that plays an important role in the development of chemoresistance in platinum-based anticancer therapy. This 42-bp segment seems to possess a regulatory function in ERCC1 expression and representing the level of clinical response to platinum-treatment in ovarian cancer patients. To confirm the existence of the 42-bp deletion and to investigate the 42-bp function, we performed several experiments and assays. Northern blot analysis and RNase protection assay provide evidence that the 42-bp deletion occurs at RNA level of ERCC1 5'-UTR in both ovarian cancer cell lines and ovarian cancer tissues. Luciferase assay suggests that this gene fragment possesses a regulatory function as an enhancer of ERCC1 gene expression in ovarian cancer cells. In Electrophoretic Mobility Shift Assay (EMSA), a shift band present in the ovarian cancer cell line extracts is consistent with the presence of an intracellular protein that recognizes this specific 42-bp sequence. Further, specific EMSA results with 42-bp probe mutated at the site of RFX-1 indicate different putative-DNA binding proteins, rather than RFX-1. We conclude that the 42-bp sequence within the 5'-UTR influences the expression of ERCC1 and hence can influence response to cisplatin in ovarian cancer therapy.
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PMID:Confirmation of 42-bp deletion within the ERCC1 5' UTR. 1537 62

Mutations in the Breast-Cancer-1 (BRCA1) gene are the major cause of familial breast/ovarian cancer. Among familial breast cancer only, 15-20% have been suggested to have a deleterious mutation in BRCA1. A highly sensitive method (REF-SSCP) was applied to screen the open reading frame and the 5'UTRs of BRCA1 for mutations. The patient cohort comprised 61 unrelated moderate to high risk breast cancer patients from Western-Norway. Only one known deleterious BRCA1 mutation (c.816-817delGT) was found in two of the 61 patients (3.3%). Four haplotypes were established based on nine known single nucleotide polymorphisms. Two patients had a novel deletion (c.-33_-29delAAAAA) in the 5'UTR, and a novel amino acid substitution (L523W) was found in one patient. Size variations analysis in the 5'UTR was repeated in a cohort of 159 unrelated familial breast/ovarian cancer patients and 94 healthy blood donors. Two patients were identified with 5'UTR (c.-30 to -60) variations (CAAAA)5 and (CAAAA)7, instead of the (CAAAA)6-repeat. All of the identified 5'UTR size variations were localized between the start codon and the most stable secondary structures previously proposed for the exon 1b transcript. No such alterations were found among the healthy blood donors but association studies of the 5'UTR variations within the respective families were not conclusive.
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PMID:Complete mutation screening and haplotype characterization of the BRCA1 gene in 61 familial breast cancer patients from Norway. 1573 22

Ovarian cancer (OC) is the most lethal gynaecologic cancer and its standard treatment consists of platinum-based chemotherapy after cytoreductive surgery. The p53 protein plays a critical role on different cellular processes in response to DNA damage and it is responsible for transcriptional induction of the P21 gene. We have analysed 114 blood samples in order to investigate the effect of the TP53 codon 72 and the P21 3'UTR polymorphisms in response to cisplatinum/paclitaxel chemotherapy for OC treatment. The genotypes of the TP53 codon 72 and P21 3'UTR polymorphism were identified using AS-PCR and PCR-RFLP, respectively. Our results indicate that the TP53 P allele is associated with a worse prognosis (P=0.011) while P21 polymorphism genotypes did not reveal any statistically significant result (P>0.05). Furthermore, simultaneous carriers of the TP53 AA genotype and the P21 CC genotype demonstrate a longer progression-free interval (P=0.020). This study suggests that the characterisation of a genetic profile can contribute to the definition of a better chemotherapy treatment.
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PMID:TP53 and P21 polymorphisms: response to cisplatinum/paclitaxel-based chemotherapy in ovarian cancer. 1636 49

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