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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatocyte growth factor (HGF) is expressed in a variety of tissues and cell types under normal conditions and in response to various stimuli such as tissue injury. In the present study, we demonstrate that the transcription of the HGF gene is stimulated by estrogen in mouse ovary. A single injection of 17 beta-estradiol results in a dramatic and transient elevation of the levels of mouse HGF mRNA. Sequence analysis has found that two putative estrogen responsive elements (ERE) reside at -872 in the 5'-flanking region and at +511 in the first intron, respectively, of the mouse HGF gene. To test whether these ERE elements are responsible for estrogen induction of HGF gene expression, chimeric plasmids containing variable regions of the 5'-flanking sequence of HGF gene and the coding region for chloramphenicol acetyltransferase (CAT) gene were transiently transfected into both human endometrial carcinoma RL 95-2 cells and mouse fibroblast NIH 3T3 cells to assess hormone responsiveness. Transfection results indicate that the ERE elements of the mouse HGF gene can confer estrogen action to either homologous or heterologous promoters. Nuclear protein extracts either from RL95-2 cells transfected with the estrogen receptor expression vector or from mouse liver bound in vitro to ERE elements specifically, as shown by band shift assay. Therefore, our results demonstrate that the HGF gene is transcriptionally regulated by estrogen in mouse ovary; and such regulation is mediated via a direct interaction of the estrogen receptor complex with cis-acting ERE elements identified in the mouse HGF gene.
Mol Cell Endocrinol 1994 Sep
PMID:Modulation of hepatocyte growth factor gene expression by estrogen in mouse ovary. 798 45

We previously showed that introduction of a single human chromosome 1, 6, or 9 derived from normal fibroblasts into HHUA endometrial carcinoma cells resulted in suppression of tumorigenicity. The tumorigenic suppression was accompanied by remarkable morphological changes in the microcell hybrids containing an extra copy of chromosome 1. The study presented here was undertaken to search for target cytoskeletal components affected by chromosome 1 transfer into endometrial carcinoma cells. We found that the microcell hybrids containing an extra copy of chromosome 1 were characterized by intracellular actin bundle formation and an excessive accumulation of actin and vinculin. The latter was a result of increased stabilization of the proteins. Additionally, chromosome 3 introduction into RCC23 human renal carcinoma cells resulted in prolongation of cell division and in senescence of a significant proportion of the microcell hybrids. In these microcell hybrids, the intracellular actin network was also reorganized, but the amounts of actin and vinculin protein were not increased. These findings suggest that the increased actin organization, which appeared not to cause tumorigenic suppression in the microcell hybrids, is associated with complementation of tumor suppressor genes and senescence by multiple mechanisms.
Mol Carcinog 1994 Jun
PMID:Increased actin cable organization after single chromosome introduction: association with suppression of in vitro cell growth rather than tumorigenic suppression. 803 69

Alterations of the retinoblastoma (Rb) gene were evaluated in nine primary endometrial adenocarcinomas that we had previously analyzed for the presence of Ki-ras activations and p53 alterations and in three endometrial carcinoma cell lines. Loss of mRNA expression in the Rb gene was detected in two of the 12 tumors. Internal deletions of Rb cDNA were observed in two tumors; one was a deletion of exon 21 in a primary carcinoma, and the other was a deletion of exon 8 in one allele in one cell line. Loss of heterozygosity of the Rb gene, which was detectable by polymorphisms in introns 1 and 17, was analyzed using polymerase chain reaction-restriction fragment length polymorphism analysis in 29 endometrial carcinomas. Of 13 heterozygous cases, two cases (15%) showed loss of heterozygosity. We therefore suggest that alteration of the Rb gene, as well as activation of the Ki-ras gene and alterations of the p53 gene, plays a significant role in the etiology of endometrial adenocarcinoma.
Mol Carcinog 1993
PMID:Alterations of the Rb gene and its association with Ki-ras activation and p53 inactivation in endometrial adenocarcinoma. 810 95

The involvement of altered c-jun activity in medroxyprogesterone acetate (MPA)-induced growth responses in human endometrial carcinoma cells is examined in this paper. Under conditions of MPA-induced growth inhibition, c-jun mRNA and protein levels are decreased in Ishikawa cells. This decrease is accompanied by an overall decrease in endogenous AP-1 activity in these cells. Only a transient decrease in c-jun mRNA level without any effect on endogenous AP-1 activity is seen in HEC-50 human endometrial carcinoma cells after MPA treatment. Increased expression and activity of c-jun was achieved in Ishikawa cells by transient transfection of Rous sarcoma virus (RSV)-c-jun alone or RSV-c-jun plus AP-1 binding sites (5x-4-beta-phorobol 12-myristate 13-acetate response element-thymidine kinase-chloramphenicol acetyltransferase), respectively. These treatments were accompanied by an increase in cell numbers due to MPA treatment in Ishikawa cells. In contrast, MPA treatment of mock-transfected, RSV-jun-B-transfected, or 5x-4 beta-phorbol 12-myristate 13-acetate response element-thymidine kinase-chloramphenicol acetyltransferase alone transfected Ishikawa cells resulted in the expected decrease in cell numbers. The data presented in this paper are consistent with the hypothesis that altered c-jun activity in a target cell can alter proliferative responsiveness to MPA and suggest that such a mechanism may be associated with resistance to hormonal manipulative therapies used in the treatment of both human breast and endometrial cancer.
Mol Endocrinol 1993 Dec
PMID:Enhanced c-jun activity alters responsiveness to medroxyprogesterone acetate in Ishikawa human endometrial carcinoma cells. 814 69

There is compelling evidence that growth factors are involved in mediating estrogen action in target tissues. The role of growth factors in the development and progression of endometrial cancer is less clear. Steroid hormones can regulate the expression of the transforming growth factors and epidermal growth factor receptors in endometrial cancer cells in culture. It is also possible to demonstrate that these growth factors function in an autocrine fashion to regulate proliferation of endometrial cancer cells in culture. Constitutive expression or overexpression of such autocrine/paracrine factors and/or their receptors may be important in the growth progression of endometrial neoplasia. However, to date the evidence to support the hypothesis is limited.
J Steroid Biochem Mol Biol 1994 Apr
PMID:Growth factors and steroid hormone action in endometrial cancer. 818 Jan 2

Aromatase, estrone (E1) sulfatase and E1 sulfotransferase activities were examined in endometrium and endometrial cancer tissue preparations. Aromatase and E1 sulfatase activities in endometrial cancer tissues were found to be significantly higher than in normal endometrial tissues. However, E1 sulfotransferase activity did not differ between benign and malignant tissue. We also examined the effect of testosterone (T) on aromatase activity and tritiated thymidine uptake (DNA synthesis) in various cultured cervical or corpus endometrial cancer cell lines (OMC-4, HHUA, Ishikawa, HEC-59). The results demonstrated that only the HEC-59 cell line had high aromatase activity and increased its DNA synthesis in response to T. This increase of DNA synthesis by T was not suppressed by simultaneous addition of cyproterone acetate, but was by tamoxifen. These data suggest that in situ estrogen production in endometrial cancer tissue is biologically important and that aromatase in cancer cells may contribute partially to cell proliferation if androgen substrate is provided.
J Steroid Biochem Mol Biol 1993 Mar
PMID:Estrogen productivity of endometrium and endometrial cancer tissue; influence of aromatase on proliferation of endometrial cancer cells. 847 61

In England, pharmacologists and a biochemist at the University of Liverpool used an established human endometrial cancer cell line (HEC-1A) and human endometrial tissue in vitro to confirm that HEC-1A and tissue metabolize oral contraceptive (OC) steroids. They used on-line radiometric high-performance liquid chromatography to analyze metabolic activity. Surgeons obtained the endometrial tissue from women undergoing dilatation and curettage or hysterectomy at the Royal Liverpool University Hospital. Earlier research showed that HEC-1A cells interconvert estrone (E1) and 17 beta-estradiol (E2), with E2 predominating in the equilibrium. In this in vitro study, healthy endometrial tissue extensively changed E2 to E1, while malignant tissue caused this conversion to a much lesser extent. The healthy endometrial tissue of some patients formed sulphate conjugates. Both HEC-1A and endometrial tissue hydrolyzed E1 3-sulphate. They did not bring about phase I metabolism when ethinyl estradiol (EE2) was the substrate. Yet, incubation with healthy tissue from some women did lead to conversion of the presumed 3-sulphate conjugate. Incubation with HEC-1A cells completely removed the acetyl group from norgestimate, resulting in mainly norgestrel oxime (55.1% of metabolites) within 24 hours. It also resulted in some norgestrel (16.3%). Incubation with endometrial tissue also brought about complete metabolism of norgestimate within 24 hours. The tissue from different women brought about qualitative and quantitative differences. HEC-1A and endometrial tissue did not metabolize much of 3-ketodesogestrel (3-KDG). In fact, the major metabolite formed by HEC-1A was 3 alpha-hydroxydesogestrel, which made up 3.3% of total added radiolabeled steroid. Healthy endometrial tissue did not produce any phase I metabolites of 3-ketodesogestrel, while tumor tissue may have produced a small amount of radiometabolites. These findings indicate that the endometrium does metabolize the OC EE2, 3-KDG, and norgestimate.
J Steroid Biochem Mol Biol 1993 May
PMID:Metabolism of the oral contraceptive steroids ethynylestradiol, norgestimate and 3-ketodesogestrel by a human endometrial cancer cell line (HEC-1A) and endometrial tissue in vitro. 849 48

In this paper we report that two human long-term endometrial cancer cell lines, Ishikawa and HEC-1A, exhibit quite different abilities in metabolizing estrogens. As a matter of fact, incubation of Ishikawa cells with close-to-physiological concentrations of estradiol (E2) as precursor resulted in: (1) elevated formation (up to 90%) of E2-sulphate (E2-S), using lower precursor concentrations; (2) very limited conversion to estrone (E1) (< 10% at 24 h incubation), as either free or sulphate; and (3) low but consistent production of other estrogen derivatives, such as 2-hydroxy-estrogens and estriol. Conversely, scant amounts (if any) of E2-S were found in HEC-1A cells, while no detectable formation of other estrogen metabolites could be observed after 24 h. On the other hand, E1 production was significantly greater (nearly 60% at 24 h) than in Ishikawa cells, a large proportion of E1 (over 50% of the total) being formed after only 6 h incubation using time-course experiments. The hypothesis that E2 metabolism could be minor in Ishikawa cells as a consequence of the high rate of E2-S formation encountered is contradicted by the evidence that conversion to E1 also remains limited in the presence of much lower E2-S amounts, seen using higher molar concentrations of precursor. Overall, we observe that 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) activity diverges significantly in intact Ishikawa and HEC-1A endometrial cancer cells. This difference could not merely be accounted for by the diverse amounts of substrate (E2) available to the cells, nor may it be imputed to different levels of endogenous estrogens. It should rather be sought in different mechanisms controlling 17 beta-HSD activity or, alternatively, in the presence of distinct isoenzymes in the two different cell types.
J Steroid Biochem Mol Biol 1995 Dec
PMID:17 beta-Hydroxysteroid dehydrogenase activity in endometrial cancer cells: different metabolic pathways of estradiol in hormone-responsive and non-responsive intact cells. 854 84

Androgens are involved in many regulatory processes in mammary and endometrial epithelium, but their role in the development and progression of breast and endometrial carcinoma is poorly understood. Androgen receptors (AR) are found in normal epithelium as well as in more than 50% of specimen from both tumor types. The occurrence of AR is correlated with estrogen and progesterone receptors. Androgen receptor positive cell lines were established during the last few years in our laboratory from malignant mammary (MFM-223) and endometrial (MFE-296) tumors supplementing the small number of androgen-responsive cell lines published so far. In this paper some aspects of the role of androgens in these two types of hormone responsive female cancers are presented. The proliferation of ZR-75-1, MFM-223 and MFE-296 cells is inhibited by androgens. The progestin medroxyprogesterone acetate inhibits the proliferation of estrogen- and progesterone receptor negative MFM-223 cells via the androgen receptor. Some steroid metabolites with distinct estrogenic properties like androst-5-ene-3 beta,17 beta-diol possess androgenic properties in this model system. Androgens stimulate the in vitro secretion of gross cystic disease fluid proteins by human mammary cancer cells. These proteins are normally found in benign breast cysts in vivo. The occurrence of gross cystic disease is correlated with an increased risk of breast cancer. The AR is autoregulated in MFM-223 mammary cancer cells on the protein and mRNA level. In MFE-296 cells with endometrial origin AR protein was increased after incubation with androgens.
J Steroid Biochem Mol Biol 1996 Jan
PMID:Androgen receptor mediated growth control of breast cancer and endometrial cancer modulated by antiandrogen- and androgen-like steroids. 860 31

The first step of invasion and metastasis is the detachment of cancer cells in the primary tumor, which is mainly controlled by the function in the adherens junction, consisting of E-cadherin associated proteins (E-cadherin, alpha- and beta-catenins, vinculin, alpha-actinin, and actin). The cell-to-cell aggregation activity and the expressions of E-cadherin, and alpha- and beta-catenin mRNAs in Ishikawa cells of well-differentiated endometrial cancer were significantly suppressed by estrogen. These suppressions were reversed by progesterone, medroxyprogesterone acetate (MPA) and danazol. Proteins in the adherens junction appeared to be expressed intact and to be functional in Ishikawa cells. Persistent estrogen predominant milieu might contribute to the detachment of well-differentiated endometrial cancer cells, leading to spreading of those cells, while progestins and danazol protect estrogen-induced spreading of those cells.
J Steroid Biochem Mol Biol 1996 Mar
PMID:Progestins and danazol effect on cell-to-cell adhesion, and E-cadherin and alpha- and beta-catenin mRNA expressions. 863 63


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