UMLS:C0476089 - FACTA Search

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

Previous loss-of-heterozygosity studies in endometrial carcinoma mapped a putative tumor suppressor gene to 10q25.3-26.1. An analysis of genomic sequences for the deletion interval showed several expressed sequence tags and the homeodomain gene EMX2, a homologue of Drosophila melanogaster empty spiracles. Expression studies showed that EMX2 transcripts are abundant in the adult uterus and that message levels seem to be inversely correlated with endometrial proliferation. EMX2 RNA was more abundant in quiescent postmenopausal endometrium than in premenopausal endometrium. We found decreased EMX2 expression in a subset of primary endometrial tumors, and four of six endometrial cancer cell lines investigated failed to express EMX2. The predicted protein showed extensive amino acid conservation with EMX2 sequences from several vertebrates. There was also considerable evolutionary conservation in the 3' untranslated region. To examine the potential function of EMX2 in endometrial tumorigenesis, we investigated 20 primary tumors and 6 endometrial cancer cell lines for mutations. Two primary tumors had mutations. Inactivation or reduced expression of EMX2 in cancers, coupled with increased expression in the quiescent endometrium, indicate that this homeodomain gene is involved in maintenance of the differentiated state.
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PMID:Characterization of the homeodomain gene EMX2: sequence conservation, expression analysis, and a search for mutations in endometrial cancers. 1154 15

We set out to determine the relative timing of loss of DNA mismatch repair and KRAS2 mutation in endometrial tumorigenesis. We studied endometrial carcinoma (CA) and synchronous atypical endometrial hyperplasia (AEH), the premalignant precursor of endometrial cancer. Carcinoma and hyperplasia were investigated for loss of mismatch repair as evidenced by microsatellite instability (MSI) and for KRAS2 mutations. Endometrial cancers previously shown to be MSI-positive were evaluated for KRAS2 codon 12 and 13 mutations. DNA was isolated from foci of AEH concomitant with, but physically remote from, the cancers by use of tissues prepared by laser capture microdissection (LCM). The AEH DNAs were then assessed for MSI and KRAS2 mutations. Of 210 endometrial CAs investigated, 51 (26%) were MSI-positive, and among those, 21 (41%) arose concomitantly with AEH. Of 41 foci of AEH (mean, two foci per patient) investigated, 34 (83%) were MSI-positive. KRAS2 mutations were seen in 5/51 (10%) MSI-positive carcinomas. From the five patients informative for both KRAS2 mutation and MSI, 10 foci of AEH were available for investigation. All 10 AEH specimens (100%) were MSI-positive, and six (60%) had the KRAS2 mutation present in the coexisting CA. The observation that some MSI-positive AEH specimens lack the KRAS2 mutation seen in the coexisting CA supports a model in which loss of DNA mismatch repair precedes KRAS2 mutation. However, in addition to the absence of KRAS2 mutations in AEH, we discovered mutations in LCM hyperplasia and carcinoma specimens that were not present in the portion of the cancers originally investigated. These discordant genotypes suggest genetic heterogeneity in endometrial hyperplasia and concomitant cancer.
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PMID:Genotypic and phenotypic progression in endometrial tumorigenesis: determining when defects in DNA mismatch repair and KRAS2 occur. 1174 70

PTEN mutation and microsatellite instability are two of the most common genetic alterations in uterine endometrioid carcinoma. Furthermore, previous studies have suggested an association between the two alterations, however the basis and consequence of the association is not understood. Recently it has been shown that 100% of female Pten(+/-) mice develop complex atypical hyperplasia by 32 weeks of age that progresses to endometrial carcinoma in approximately 20 to 25% of mice at 40 weeks. In an attempt to expand this mouse model of endometrial tumorigenesis and to further our understanding of the association betweenPten mutations and DNA mismatch repair deficiency, we generated Ptenheterozygous, Mlh1-null (mismatch repair deficient) mice. Significantly, the majority ofPten(+/-)/Mlh1(-/-)mice developed polypoid lesions in the endometrium at 6 to 9 weeks of age. By 14 to 18 weeks, all of the double-mutant mice had lesions histologically similar to those seen inPten(+/-) mice, and two of them exhibited invasive disease. Moreover, the frequency of loss of the wild-type Pten allele in the double-mutant mice at 14 to 18 weeks was similar to that seen in lesions from 40-week-old Pten(+/-) mice. Taken together, our results indicate that DNA mismatch repair deficiency can accelerate endometrial tumorigenesis inPten heterozygous mice and suggests that loss of the wild-type Pten allele is involved in the development/progression of tumors in this setting.
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PMID:DNA mismatch repair deficiency accelerates endometrial tumorigenesis in Pten heterozygous mice. 1194 31

Not since the discovery of p53 has another molecule received as much attention as PTEN. In the 5 years since the discovery of PTEN, encoding a dual specificity phosphatase tumor suppressor on 10q23, it has been shown to be a susceptibility gene for an inherited cancer syndrome, Cowden syndrome, and for several developmental disorders; it has been shown to play a prominent role in normal murine and human development; and it has been shown to be instrumental in cell cycle arrest, apoptosis, and/or possibly cell migration and cytoskeletal affairs. Initial work on cancer cell lines had suggested that PTEN caused every type of cancer because it was reported that a relatively high frequency of a variety of cancer cell lines, whether derived from solid tumors or hematological malignancies, had homozygous or compound heterozygous genetic alterations involving PTEN. Such data, together with the germ-line human and murine model data, suggested that PTEN mutations occurred "early" in sporadic tumorigenesis. However, subsequent painstaking work in noncultured primary tumors and in careful in vitro overexpression studies over the last 4 years demonstrated that the mechanism of PTEN inactivation can be varied and might be cell type dependent. Furthermore, apart from sporadic endometrial carcinoma, PTEN alteration in noncultured sporadic neoplasias likely occurs "late," promoting progression and metastasis. The article by Davies et al. (Clin Cancer Res., 8: 1904-1914, 2002) sheds light on all of these issues when they report on data that derive from a "triple threat" strategy, i.e., in vitro, in vivo, and ex vivo, to demonstrate that adenoviral infection of PTEN into PTEN-null PC3 prostate cancer cell lines results in decreased metastatic potential without significantly altering tumor size via the predominant mechanism of G(1) cell cycle arrest but not apoptosis.
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PMID:The expanding role of PTEN in neoplasia: a molecule for all seasons? Commentary re: M. A. Davies, et al., Adenoviral-mediated expression of MMAC/PTEN inhibits proliferation and metastasis of human prostate cancer cells. Clin. Cancer Res., 8: 1904-1914, 2002. 1206 Jun 35

Progestogens are added to oestrogen in hormone replacement therapy regimens to reduce the risk of endometrial cancer. We have performed in vitro studies analysing gene expression of isolated normal endometrial epithelia cells (NEE) treated with estradiol and the progestogen norethisterone acetate (NETA). We report here for the first time upregulation of the Wnt-7a gene by NETA in estrogen treated NEE. Wnt genes are a large family of developmental genes associated with cellular responses such as oncogenesis. We therefore suggest that upregulation of Wnt-7a may be associated with the antineoplastic effects of progestogens on the endometrium.
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PMID:Wnt-7a is upregulated by norethisterone in human endometrial epithelial cells: a possible mechanism by which progestogens reduce the risk of estrogen-induced endometrial neoplasia. 1218 78

Transforming growth factor-beta (TGF-beta) belongs to a superfamily of structurally related polypeptides involved in various biological processes, including cell growth, proliferation and differentiation, angiogenesis, apoptosis, and extracellular matrix remodeling. We tried to define the different expression patterns of the TGF-beta receptors by investigating the female reproductive organs during the menstrual cycle and endometrial tumorigenesis, because their role in these processes is still unclear. In this study, we examined the expression of the TGF-beta type I and type II receptors in normal (n=13) and carcinomatous (n=42) endometrial tissue specimens using reverse transcriptase polymerase chain reaction and immunological (Western blot and enzyme linked immunosorbent assay) methods. Two uncommon female genital tract tumors, rhabdomyosarcoma of the uterine cervix and uterine carcinosarcoma, were also included. There were no significant differences between normal and cancerous endometrial tissues regarding the TGF-beta receptors mRNA levels. However, we observed a markedly low TGF-beta type I receptor protein level (P<0.028; Mann-Whitney-U test), while the malignant endometrium showed a significantly higher TGF-beta type II receptor protein level (P<0.007; Mann-Whitney-U test) than the normal endometrium. Moreover, significantly elevated TGF-beta receptor type II protein level was noted when depth of myometrial invasion of endometrial carcinomas was considered (P<0.05; Mann-Whitney-U test). In contrast to uterine carcinosarcoma, in which no detectable mRNA for TGF-beta type II receptor was found, we noted expression of both TGF-beta receptors in rhabdomyosarcoma of the uterine cervix. However, neither rhabdomyosarcoma of the uterine cervix nor uterine carcinosarcoma displayed TGFbetaRI and TGFbetaRII protein expression. This observation corroborates the complexity of the deregulation of TGF-beta receptor expression in human endometrial cancer.
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PMID:Expression of TGF-beta type I and II receptors in normal and cancerous human endometrium. 1221 93

The PTEN tumor suppressor gene encodes a phosphatidylinositol 3'-phosphatase that is inactivated in a high percentage of human tumors, particularly glioblastoma, melanoma, and prostate and endometrial carcinoma. Previous studies showed that PTEN is a seryl phosphoprotein and a substrate of protein kinase CK2 (CK2). However, the sites in PTEN that are phosphorylated in vivo have not been identified directly, nor has the effect of phosphorylation on PTEN catalytic activity been reported. We used mass spectrometric methods to identify Ser(370) and Ser(385) as in vivo phosphorylation sites of PTEN. These sites also are phosphorylated by CK2 in vitro, and phosphorylation inhibits PTEN activity towards its substrate, PIP3. We also identify a novel in vivo phosphorylation site, Thr(366). Following transient over-expression, a fraction of CK2 and PTEN co-immunoprecipitate. Moreover, pharmacological inhibition of CK2 activity leads to decreased Akt activation in PTEN+/+ but not PTEN-/- fibroblasts. Our results contrast with previous assignments of PTEN phosphorylation sites based solely on mutagenesis approaches, suggest that CK2 is a physiologically relevant PTEN kinase, and raise the possibility that CK2-mediated inhibition of PTEN plays a role in oncogenesis.
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PMID:Direct identification of PTEN phosphorylation sites. 1229 95

Cyclin A1 is a tissue-specific A-type cyclin that is essential for spermatogenesis. Overexpression of cyclin A1 was found in acute myeloid leukemia and cyclin A1 induced leukemia in a transgenic mouse model. We used quantitative real-time reverse transcription-polymerase chain reaction to analyze cyclin A1 expression in solid tumors. Cyclin A1 expression was very low in breast cancer, non-small cell lung cancer and in cervical carcinoma. However, substantial expression of cyclin A1 was found in testicular and ovarian cancer and in endometrial cancer. In testis specimens, cyclin A1 expression was much higher in testicular tumors compared to Sertoli cell only syndrome that lacks spermatogenesis. Compared to normal spermatogenesis, testicular cancers expressed on average lower levels of cyclin A1. Among the different histological subtypes of testicular tumors, embryonal cell carcinomas and immature teratomas expressed the highest levels of cyclin A1. The cyclin A1 levels in these tumors were similar to those seen in normal testis. Seminomas and yolk sac tumors expressed intermediate levels, whereas cyclin A1 expression was very low in mature teratomas. These findings indicate that cyclin A1 is expressed in selected solid tumors. Its known oncogenic function and the high expression levels in aggressive testicular tumors suggest a role for cyclin A1 in germ cell tumorigenesis.
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PMID:Cyclin A1 is highly expressed in aggressive testicular germ cell tumors. 1253 81

There is definitely a need for the development of new drugs for the treatment and cure of endometrial cancer. In addition there are various new drugs or phyto-remedies under development which are intended for use in the treatment and prevention of breast cancer, for the treatment of menopausal symptoms and for hormone replacement therapy. The efficacy of novel drugs targeting steroid receptors in endometrial cancers has to be evaluated and the safety of other endocrine measures on endometrial cancers or on endometrial carcinogenesis has to be assessed. For these experimental purposes five main classes of experimental models are available: spontaneous endometrial tumorigenesis models in inbred animals (Donryu rats, DA/Han rats, BDII/Han rats), inoculation tumors from chunks of tumors (rat EnDA-tumor, human EnCa 101 tumor) or from inoculated tumor cell lines (rat RUCA-I cells, human Ishikawa and ECC-1 cells), developmental estrogenic exposure or chemical carcinogen exposure of CD-1 and ICR mice, transgenic approaches such as mice heterozygous regarding the tumor suppressor gene PTEN (pten(+/-)-mice) and endometrial tumor cell lines cultured under conditions promoting in vivo-like morphology and functions e.g. cell culture on reconstituted basement membrane. Although the number of models is comparatively small, most aspects related to functions of estrogenic or gestagenic substances are assessable, particularly if various experimental models are combined. Whereas models based on human endometrial adenocarcinoma cells are widely used, the properties and advantages of animal-derived models have mainly been ignored so far.
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PMID:Endometrial cancer: experimental models useful for studies on molecular aspects of endometrial cancer and carcinogenesis. 1265 69

A substantial fraction of human malignancies lack functional DNA mismatch repair (MMR), accumulate mutations at high frequency, and exhibit microsatellite instability (MSI). In order to distinguish between MMR-competent and MMR-deficient malignancies, a consensus panel of microsatellite repeats has been adopted for MSI analysis of human tumors. There is no reference panel of repeats for MSI typing of murine malignancies. In this study, we present six new microsatellite repeat markers for MSI typing of mouse tumors. Analysis of polymerase chain reaction (PCR)-amplified tumor DNA from MMR-deficient and -proficient mice on denaturing polyacrylamide gels revealed that the new panel of microsatellites was more sensitive in detecting MSI than six commonly used CA(n) repeats. Using the new set of microsatellite markers, we demonstrated the presence of MSI in endometrial carcinoma and cancer precursors from diethylstilbestrol (DES)-treated mice, pointing to a possible role for loss of MMR in hormonally promoted endometrial tumorigenesis.
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PMID:A panel of repeat markers for detection of microsatellite instability in murine tumors. 1463 54

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