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Query: UMLS:C0476089 (endometrial cancer)
 11,379 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Approximately 20,000 women are diagnosed with ovarian cancer in the United States each year, and some 12,000 women die because of it. Epithelial ovarian cancer, the most common histopathologic type, is uncommon before age 40 years, after which incidence rates increase steeply until age 70-79 years and then decrease somewhat. In the United States, the lifetime risk from birth to age 85 years is about 1.5%. There is general agreement that residence in North America or northern Europe, nulliparity, and having a mother or sister with ovarian cancer are associated with an elevated risk, and that increasing number of pregnancies (whether or not full term), increasing length of oral contraceptive use, and increasing duration of lactation are protective. A history of breast or endometrial cancer appears to be associated with a slight elevation in risk. Apart from oral contraceptive use, none of these characteristics can be modified easily to reduce ovarian cancer risk. However, long-term oral contraceptive use before the menopause could prevent as much as half of all ovarian cancer. At present, the subgroup of the population at highest risk consists of women with a mother or sister with the disease; the lifetime ovarian cancer risk in these women is about 9%. A small fraction of them have families with multiple cases of ovarian cancer and early-onset breast cancer, due largely or entirely to mutated alleles of the gene BRCA1. These women, who have a lifetime risk of breast or ovarian cancer of 85-100%, need aggressive screening and possibly prophylactic surgery.
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PMID:Characteristics relating to ovarian cancer risk: implications for prevention and detection. 863 61

The isolation of genes that predispose to familial disease is an important goal in cancer research. The identification of such genes "opens up" the possibility of genetic diagnosis in families so that individuals who are at risk of cancer through inheriting a predisposing mutation can be identified. Genes that are involved in familial cancer syndromes may also be important in the pathogenesis of sporadic forms of the disease, which are often more common. In the search for genes that predispose to familial breast and ovarian cancer much recent progress has been made. A locus on the long arm of chromosome 17, in the interval 17q12-21, has been identified by genetic linkage, and appears to be responsible for disease in approximately 40% of breast cancer families and most families that contain breast and ovarian cancer. The region containing this locus, which has been called BRCA1, has been narrowed to a 3-4 cM interval defined by THRA1, the thyroid hormone receptor locus alpha, and D17S183, an anonymous microsatellite polymorphism. Loci other than BRCA1 that have been identified appear not only to predispose to breast and/or ovarian tumors, but to tumors at other sites too. A new locus has been identified on chromosome 2 which is linked to hereditary non-polyposis colorectal cancer (HNPCC). Families with HNPCC are also at risk of endometrial cancer and tumors of the ovary, amongst other cancer sites. Finally, mutations in the p53 gene are inherited in families with Li-Fraumeni syndrome, a rare cancer syndrome predisposing to breast tumors, sarcomas, leukemia and other cancers. Li-Fraumeni syndrome is also the only inherited cancer syndrome that predisposes at least in part to breast cancer where the actual predisposing gene is known. For the other cancer syndromes, the cloning of the predisposing genes is eagerly awaited.
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PMID:Predisposing genes in breast and ovarian cancer: an overview. 811 68

Studies of the etiology, early detection, and prevention of breast cancer reported in the past year are reviewed in this paper. Studies of the etiology of breast cancer include reports on genetic and environmental factors. A major advance in the study of inherited forms of breast and ovarian cancer occurred with the identification of the BRCA1 gene. A second breast cancer susceptibility gene, the BRCA2 gene, was localized to chromosome 13q12-13. Multiple mutations in the BRCA1 gene have been identified, presenting a challenge for the development of predictive testing. Controversy continues over the association between hormone replacement therapy and the development of breast cancer. A study of exercise suggests a strong protective effect against the development of early onset breast cancer. Recent studies have failed to find a strong link between dietary fat intake and the development of breast cancer. A meta-analysis of studies of the efficacy of screening for the prevention of breast cancer mortality demonstrates a significant reduction in mortality among women 50 years of age and older. A lowering of breast cancer mortality for women aged 40 to 49 was only demonstrated after 10 to 12 years of follow-up. The risks and benefits of tamoxifen therapy, a potential breast cancer chemoprevention agent, continue to be clarified. Adverse effects on the endometrium, including an increased risk of endometrial cancer, have been reported. Beneficial effects include an improved cardiovascular risk profile and preservation of bone mineral density among postmenopausal women.
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PMID:Epidemiology, prevention, and early detection of breast cancer. 854 94

The usefulness of prognostic factors in gynecological cancer was evaluated using the oncogenes, tumor suppressor genes and DNA viruses detected with the molecular biological technique. In uterine cervical cancer, HPV types 16 and 18 are considered to have a high oncogenic risk, and are commonly associated with high grade CIN and invasive cancer under persistent HPV infection. C-myc overexpression in advanced stage and p53 mutation in HPV negative case are associated with poor survival. In endometrial cancer, oncogene activation and expression are less frequent than in cervical and ovarian cancer. K-ras point mutation (codon 12) tumors are more aggressive and c-erbB-2 overexpression are associated with metastasis and poor survival. In ovarian cancer, there are numerous abnormalities of oncogenes and tumor suppressor genes. Especially, EGF-R and PDGF-R alpha expression are associated with decreased survival. p53 mutation also decreases survival and response to chemotherapy. Recently. MSH2 (Lynch II syndrome) and BRCA1 gene are known to relate with familial ovarian cancer.
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PMID:[Evaluation of prognostic factors in gynecological cancer examined by molecular biological study]. 868 14

This review focuses on etiologic factors and hormonal correlates of the three major gynecologic cancers-uterine cervix, uterine corpus and ovary- and breast cancer. The incidence rate of the three gynecologic cancers combined is only 40 percent of the breast cancer rate (43.6 vs 109.5 per 100,000), whereas the combined mortality rate is half that for breast cancer (14.3 vs 27.3 per 100,000). Cervical cancer is distinctive in that it's hormonal correlates are few; it exhibits the epidemiologic characteristics of a sexually transmitted disease. Integration of Human Papilloma Virus DNA types 16, 18 (or other) within the cellular genome has been identified in more than 80% of high grade cervical intraepithelial neoplasias and invasive carcinomas. Epithelial ovarian cancers occur most commonly in nulliparous, infertile women and familial carriers of BRCA1. Oral contraceptive (OC) use reduces ovarian cancer risk by at least one-half, a benefit which increases with increasing duration of use and persists for at least 15 years after discontinuation. Pregnancy and OCs suppress gonadotropin secretion, whereas fertility drugs enhance follicle-stimulating hormone production. These indicators of alterations in the hypothalmic-pituitary-ovarian axis provide some support for both the excess gonadotropin and the incessant ovulation theories of ovarian carcinogenesis. Endometrial carcinoma is the prototype hormonally-determined disease. Increased estrogen from either endogenous or exogenous sources increases risk. Lowering the estrogen load or adding progestin reduces risk. This explains the marked protection achieved by combined estrogen/progestin OC's and the dramatic increased risk uncurred by long-term estrogen replacement therapy (ERT). Breast tissue, also a target for sex steroid hormones, displays a more complex risk profile. Current ERT use increases breast cancer risk by about 30%; adding a progestin to the estrogen does not improve the situation (40% increased risk). Furthermore, OCs do not reduce breast cancer risk, but may increase it for current OC users under age 45. The magnitude of these hormonal effects is much smaller than that exhibited with endometrial cancer.
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PMID:Epidemiologic analysis of breast and gynecologic cancers. 910 87

Various ongoing double-blind clinical trials are evaluating the use of tamoxifen (Nolvadex) as chemoprevention for breast cancer. A total of over 24,000 healthy women have been randomized to these trials, and it should be possible, by the year 2000, to detect any preventive effect of tamoxifen in healthy women. Furthermore, with the large numbers of women involved, it should be possible to evaluate prevention in subgroups of participants according to risk of the disease, particularly those women carrying high-risk genes, such as BRCA1 and BRCA2. Adverse effects of tamoxifen have been identified, including a transient bone loss in premenopausal women and uterine effects, including polyps, cysts, and endometrial cancer, in postmenopausal women. Although the potential benefit of tamoxifen in preventing breast cancer in healthy women is likely to outweight any potential long-term risks, the use of other tamoxifen-like drugs, such as raloxifene (Evista) and toremifene (Fareston) is now being investigated.
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PMID:Status of antiestrogen breast cancer prevention trials. 955 88

Genetic alterations of tumour suppressor genes, for which loss of heterozygosity (LOH) is one mechanism of gene inactivation, are important steps in the development of endometrial cancer. To investigate the clinical relevance of LOH of BRCA1 (17q21), TP53 (17p13) and TCRD (14q11) in endometrial cancer, polymerase chain reaction (PCR)-based fluorescent DNA technology for the detection of microsatellite polymorphisms was applied. One hundred and thirteen archival endometrial cancer samples with matched normal tissues were examined. Allele loss at three loci were correlated with age, tumour size, lymph node status, metastases, stage, histological types, grade, expression of oestrogen receptor (ER) and progesterone receptor (PgR), family history of cancer, previous history of cancer or precursor lesions, and previous history of hormone replacement therapy (HRT). LOH for BRCA1 was detected in 18.1%, of TP53 in 26.9%, and of TCRD in 26.3% of informative cases. LOH of BRCA1 correlated with medium grade, positive ER status, and family history of cancer; LOH of TP53 correlated with younger age, high grade, positive PgR status, and with tumours from patients without HRT; LOH of TCRD correlated only with family history of cancer. LOH at all three loci correlated only with grade and positive family history. Allele loss of one of the three tumour suppressor loci did not correlate with disease-free survival (DFS), but LOH of BRCA1 correlated significantly with decreased overall survival (OS). The latter, together with the correlation of LOH of BRCA1 locus with steroid hormone receptor expression, might give a hint to the potential involvement of the co-localised 17 beta-hydroxysteroid dehydrogenase (HSD) gene in the development of endometrial cancer.
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PMID:Loss of heterozygosity of BRCA1, TP53 and TCRD markers analysed in sporadic endometrial cancer. 989 67

Genetic instability of microsatellite repeat sequences [microsatellite instability (MI)] is commonly seen in tumors associated with the hereditary nonpolyposis colorectal cancer syndrome and is a result of inactivating mutations in any of several genes involved in a particular pathway of DNA mismatch repair. Sporadic (i.e., nonhereditary) manifestations of several tumor types, including colorectal, gastric, and endometrial carcinomas, also exhibit MI in a significant fraction of cases. Many MI+ sporadic colorectal carcinomas are associated with somatic mutations of mismatch repair genes, and several genes with coding region microsatellites are frequently mutated as a result in these cancers. The molecular causes and consequences of MI in sporadic endometrial carcinomas remain obscure, however. The aims of this study were: (a) to identify a series of sporadic endometrial carcinomas with clear evidence of MI; (b) to determine the extent to which somatic alterations in mismatch repair genes are associated with this MI; and (c) to establish whether the genes containing coding region microsatellite repeats that are known to be disrupted in MI+ gastrointestinal cancers are also disrupted in MI+ endometrial carcinomas. Matched pairs of normal and tumor DNA from 57 consecutive cases of endometrial carcinoma were examined for evidence of MI using a consensus panel of microsatellite markers. Fourteen cases (25%) displayed unequivocal evidence of MI, consistent with previously published estimates of the incidence of MI+ sporadic endometrial carcinoma. These cases were subjected to a mutation screen of the coding regions and exon-intron boundaries of the mismatch repair genes MSH2 and MLH1. Although several polymorphisms were detected, no clearly deleterious mutations were found in either of these genes. Notably, however, hypermethylation of the MLH1 promoter region was identified in 10 of 14 (71%) MI+ cases. Somatic mutations in coding region microsatellite repeats in the TGFbetaIIR, IGFIIR, BAX, E2F4, MSH3, MSH6, BRCA1, and BRCA2 genes were generally rare. Four MI+ tumors (29%) contained somatic mutations in the PTEN gene, only one of which was likely the result of MI. These data indicate that somatic mutational inactivation of known mismatch repair genes does not account for the great majority of sporadic endometrial carcinomas with MI and that a significant fraction of these cases may instead be causally associated with hypermethylation of the MLH1 promoter. Furthermore, genes with coding region microsatellites that are frequently mutated in MI+ gastrointestinal cancers are rarely mutated in MI+ endometrial cancers, implying the existence of alternative molecular targets for the tumorigenic effects of MI in this tumor type.
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PMID:Causes and consequences of microsatellite instability in endometrial carcinoma. 992 63

We have investigated frameshift mutations in exonic repeats in the ATR, BRCA1, BRCA2, PTCH, CTCF, Cx26, NuMa and TGFbetaRII genes, using human tumor samples from stomach, esophagus, breast and skin and melanoma, as well as colon cancer and endometrial cancer cell lines (125 samples in total). We developed a sensitive method to detect mutations in the repeats, using the introduction of an artificial restriction site into a repeat. The method detects a single mutant among 10(3) normal genes. Thus, an alteration in a repeated sequence can be detected unambiguously. The (A)(8) repeat of BRCA2 was found mutated in only two of five colon cell lines with microsatellite instability (MI(+)). The ATR gene has an (A)(10) repeat which was altered in two of three MI(+) stomach cancer samples and one of three MI(+) endometrial cell lines. The TGFbetaRII gene [with an (A)(10) repeat] had the maximal frequency of mutations: 10 out of 13 MI(+) samples. At least one sample from all types of cancers, except melanomas, was positive for TGFbetaRII gene mutations. No mutations were found in repeats in the BRCA1, PTCH, CTCF, NuMA and Cx26 genes in any types of tumors examined. In conclusion, our study indicates that repeats were altered only in MI(+) cells and that the mutation frequencies in the genes studied differ among tumor types. Based on these results, we discuss meaningful and meaningless alterations in exonic repeats.
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PMID:A novel sensitive method to detect frameshift mutations in exonic repeat sequences of cancer-related genes. 1054 25

Alterations in the cellular genome affecting the expression or function of genes controlling cell growth and differentiation are considered to be the main cause of cancer. Genes that cause cancer are of two distinct types: oncogenes and onco-suppressor genes. The normal proto-oncogene can be converted into an active oncogene by deletion or point mutation in its coding sequence, gene amplification, and by specific chromosome rearrangements. Mutations and abnormal expression in ras, myc, c-erbB-2, and other oncogenes have been reported in several types of gynecological cancer. Onco-suppressor genes are involved in gynecological cancer, their functions are localized in different phases of the cell cycle. Structural changes and deletions of these genes can cause cancer. Mutations in the p53, BRCA1, DCC, and PTEN genes have been reported in gynecological cancers such as ovarian, cervical, and endometrial cancer. Human papillomaviruses are of major interest because specific types (HPV-16, -18, and several others) have been identified as causative agents in at least 90% of cancers of the cervix. In this study we summarize the available information regarding the implication of specific oncogenes, onco-suppressor genes, and HPV in the development of female genital malignancies.
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PMID:Molecular basis of gynecological cancer. 1081 92


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