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)

The nuclear DNA content of 47 malignant epithelial ovarian tumours and five ovarian tumours of borderline malignancy was correlated with estrogen (ER), progesterone (PR) and androgen receptor (AR) status. Aneuploidy was observed in 60% of the malignant tumours. The DNA index of poorly differentiated tumours was higher than that of well differentiated tumours (P less than 0.05). Ploidy did not correlate with histological type, stage of disease and ER content. Of the diploid tumours, 74% was PR-positive, in contrast to 36% of the aneuploid tumours (P less than 0.05). In addition, 89% of the diploid tumours had high AR levels (greater than or equal to 30 fmol/mg cytosol protein), in contrast to only 54% of the aneuploid tumours (P less than 0.05). These observations strengthen our previous findings on the prognostic importance of PR and also suggest that androgens may have a role in ovarian cancer.
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PMID:Correlation between nuclear DNA content and steroid receptor status in ovarian cancer. 200 49

Cytosols of 94 untreated common epithelial ovarian cancer tissues were analysed for the presence of estrogen-, progesterone- and androgen receptors. Androgen receptors clearly predominated (90%) over and above estrogen- (55%) and progesterone receptors (52%). Further characterisation particularly of the androgen receptor revealed steroid-receptor complex with the sedimentation coefficient similar to ovalbumin (3,6 S). Only androgens, natural and synthetic, were able to alter the sedimentation profile. Estrogen appeared to slightly lower the peak, while progesterone and cortisol did not alter the profile at all. No difference in receptor concentrations between tumor tissues from pre-, peri- and postmenopausal women was found. The serum hormone levels (estradiol-17 beta, testosterone, FSH, LH) measured preoperatively in 20 postmenopausal patients did not correlate with the receptor status. Majority of the ovarian carcinomas studied contained androgen receptors. We therefore suggest consideration of the addition of anti-androgens to the therapeutic strategies applicable to ovarian cancer.
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PMID:Androgen receptor predominance in human ovarian carcinoma. 349 2

The possible role of a novel steroid receptor in ovarian malignancy was investigated. The evolutionarily conserved orphan steroid receptor COUP-TF (chicken ovalbumin upstream promoter transcription factor) was originally identified as a protein interacting with an upstream promoter element of the chicken ovalbumin gene. The human receptor protein was purified from a cervical cancer cell line. An immunocytochemical technique for the visualization of COUP-TF was developed using a specific polyclonal rabbit antibody. Four established ovarian cancer cell lines were evaluated. The patterns of COUP-TF expression were compared to the staining intensities of immunocytochemical assays for estrogen receptor (ER), androgen receptor (AR), aromatase, and HER2/neu. A comparison of the ovarian cancer cell lines showed differential expression of COUP-TF in the nucleus. The pattern of COUP-TF expression did not follow the profile of any of the other four variables. In agreement with transfection experiments showing reduction of activity of other steroid receptors by elevated COUP-TF levels, high COUP-TF expression correlated with low ER activity also in native ovarian cancer cells. These data represent the first reported evidence that COUP-TF-like proteins may play a role in the metabolism and possibly in the process of dedifferentiation of human ovarian cancer.
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PMID:Chicken ovalbumin upstream promoter transcription factor (COUP-TF): an orphan steroid receptor with a specific pattern of differential expression in human ovarian cancer cell lines. 790 49

Four genes are now known to be responsible for inherited susceptibility to breast cancer: the BRCA1 gene on chromosome 17q21, the ataxia-telangiectasia (AT) gene (11q22-q23), the TP53 gene (17p13.1) and the androgen receptor (AR) (Xq11.2-q12). These genes, however, differ dramatically in terms of the risk of breast cancer that they confer, the proportion of breast cancer incidence that they account for and the other cancers and other phenotypes with which they are associated. Genetic linkage studies have shown that some high risk breast cancer families, particularly those where breast cancer occurs in association with ovarian cancer, are due to a gene on chromosome 17q known as BRCA1. The BRCA1 gene is estimated to confer a breast cancer risk of about 70% by age 70, and may account for about 2% of overall breast cancer incidence, although a higher proportion of younger cases. Germline mutations in the TP53 gene are responsible for a high proportion of LI-Fraumeni families, in which breast cancer occurs in association with childhood sarcomas and other cancers. In such families, the risk of breast cancer is over 50% by age 50, and the risk of all cancers is nearly 100%; germline TP53 mutations are, however, probably responsible for much less than 1% of all breast cancer. By contrast, heterozygotes for the AT gene carry a much more moderate risk of breast cancer. This gene, however, is much more common in the population and may account for 7% or more of breast cancer incidence. Finally, germline mutations in the androgen receptor are known to cause male breast cancer, but this has only been demonstrated in two families. Evidence from linkage and population based studies suggests that these genes may account for about one half of the observed familial clustering of breast cancer; other breast cancer susceptibility genes therefore remain to be identified.
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PMID:Inherited susceptibility to breast cancer. 801 3

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

Approximately 20% of breast cancer patients have a family history of the disease, and in one-fourth of these cases breast cancer appears to be inherited as an autosomally dominant trait. Five genes and gene regions involved in breast cancer susceptibility have been uncovered. Germ-line mutations in the recently cloned BRCA1 gene at 17q21 is considered to be responsible for the disease in a majority of the breast-ovarian cancer families and in 40-45% of the site-specific breast cancer families, but appears not to be involved in families with both male and female breast cancer cases. The BRCA2 locus at 13q12-q13 appears to be involved in 40-45% of the site-specific breast cancer families, and in most of the families with affected males. The gene located in this region, however, does not seem to confer susceptibility to ovarian cancer. The TP53 gene is involved in breast cancer development in the Li-Fraumeni syndrome and Li-Fraumeni syndrom-like families, whereas germ-line mutations in the androgen receptor (AR) gene is present in a subset of male breast cancers. Furthermore, females who are obligate carriers of ataxia telangiectasia (AT) have a 4-12 times relative risk of developing breast cancer as compared with the general female population, indicating that germ-line mutations in AT also confer susceptibility to breast cancer.
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PMID:Genetic heterogeneity in breast cancer susceptibility. 869 52

A family history for breast cancer appears to be a major risk factor for breast cancer. It has been estimated that 5% of all breast cancers are hereditary. In the last five years much progress has been made in the identification of genes responsible for breast cancer. Much interest is focused on the BRCA-1 gene, which is associated with early onset breast and ovarian cancers. Heterogeneity within and across families in the pattern of cancer susceptibility has suggested that different susceptibility alleles may exist. The BRCA-1 gene has been cloned but the function of its product has not been determined. BRCA-1 mutations seem not to be involved in sporadic breast cancer. A second breast cancer susceptibility gene, BRCA-2, has been localized to chromosome 13q12-q13 but has not been identified as yet. Loss of heterozygosity of 13q is observed in 25% of sporadic breast tumors, which indicates that BRCA-2 might be a tumor suppressor gene. BRCA-2 confers only a low ovarian cancer risk. The TP53 gene has also been associated with breast cancer but to a much more limited extent than BRCA-1. Germline TP53 mutations have been found in patients with familial breast cancer. Other genes that have been associated with breast cancer risk are the androgen receptor (AR) gene and the ataxia teleangiectasia (AT) gene. The importance of the AR gene appears to be limited but the AT gene might be of considerable importance. It is to be expected that additional breast cancer susceptibility genes will be identified in the near future.
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PMID:Genes responsible for familial breast cancer. 888 Aug 69

Ovarian cancer is the second most common malignancy of the female reproductive tract. Approximately 50% of ovarian cancers have elevated levels of epidermal growth factor receptor (EGFR). This overexpression is correlated with a poor prognosis for patient survival. Ovarian cancers also express a number of sex steroid receptors. The androgen receptor (AR) is the predominant sex steroid receptor and is expressed in over 80% of ovarian cancers. We investigated whether a relationship exists between EGFR and AR in ovarian cancer. Sixty serous cystadenocarcinomas were analyzed for their relative levels of EGFR and AR by Western blot analysis. Data were analyzed by Student's t test and linear regression analysis for statistical significance. More than 98% of the tumors expressed detectable levels of EGFR, while 65% of the tumors expressed detectable levels of AR. The levels of EGFR (mean +/- SEM) were found to be significantly (P < 0.01) higher in AR+ (516 +/- 15) than in AR- (304 +/- 57) tumors. EGFR levels significantly correlated to AR levels (r = 0.49, P < 0.001). These results demonstrate an association between EGFR and AR levels in ovarian cancer. Whether this association represents a causal or a casual relationship remains to be determined.
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PMID:Expression of epidermal growth factor and androgen receptors in ovarian cancer. 926 71

Our understanding of the roles played by sex hormones in ovarian carcinogenesis has been limited by a lack of data concerning the mode of sex hormone action in human ovarian surface epithelial (HOSE) cells, the tissue of origin of >90% of ovarian cancers. We have compared the relative abundance of estrogen receptor (ER)alpha, ERbeta, progesterone receptor (PR), and androgen receptor (AR) mRNA in four primary cultures of HOSE cells obtained from postmenopausal women to those found in late serous adenocarcinoma primary cell cultures and established ovarian cancer cell lines. We observed coexpression of ERalpha and ERbeta mRNA along with AR and PR transcripts in normal HOSE cells and disruption of ERalpha mRNA expression as well as dramatic down-regulation of PR and AR transcript expression in most ovarian cancer cells. In contrast, levels of ERbeta mRNA were unaffected by the malignant state. Additionally, a novel mutation involving a 32-bp deletion in exon 1 of ERalpha transcripts was detected in the SKOV3 cell line. This mutation would explain why SKOV3 was reported to be ER-positive but estrogen-insensitive. Taken together, these findings suggest that estrogens, signaling via either or both ER subtypes, may play an indispensable role in regulating normal HOSE cell functions. Therefore, loss of ERalpha, PR, and AR mRNA expression in HOSE cells may be responsible for neoplastic transformation in this cell type. In contrast, the roles played by ERbeta in normal and malignant HOSE cells remain elusive. Finally, the coexistence of mutated ERalpha mRNA and normal ERbeta transcripts in SKOV3 argues in favor of a dependency of ERbeta action on functional ERalphas.
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PMID:Expression of human estrogen receptor-alpha and -beta, progesterone receptor, and androgen receptor mRNA in normal and malignant ovarian epithelial cells. 1031 51

The CAG repeat in exon 1 of the androgen receptor (AR) genes has been postulated as both a susceptibility allele and phenotypic modifier in BRCA1-associated breast cancers. We have analysed this repeat in a set of 178 breast cancer cases who have been selected only for age of presentation at 65 years or less. No effect of repeat length on age of presentation was found and there was no association between repeat length and family history. In combination with the data from other workers, our findings suggest that the androgen receptor repeat does not act as a modifier gene or susceptibility locus outside the context of the hereditary breast/ovarian cancer syndrome.
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PMID:The androgen receptor exon 1 trinucleotide repeat does not act as a modifier of the age of presentation in breast cancer. 1071 32

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