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

The cathepsin D gene is differentially regulated by estrogens in hormone responsive breast cancer cells, by progestins in normal human endometrium and is highly expressed but not regulated by these steroids in estrogen (RE)- and progesterone receptor (RP)-negative breast cancer cells. We have stably transfected the RE-negative breast cancer cell line MDA-MB 231 and the Hela cell line with an expression vector for the human RE. The endogenous cathepsin D which is constitutively expressed was further stimulated by estradiol. However, the growth of both cell lines was not stimulated by estradiol and could not be inhibited by the antiestrogen ICI 164,384. By contrast, the cathepsin D gene in the estrogen responsive Ishikawa endometrial cancer cell line was unresponsive to estrogen or to progesterone even following stable transfection of expression vectors for the RP (both A and B isoforms). We conclude that the cathepsin D gene is potentially responsive to estrogens in MDA-MB 231 and Hela cells, which therefore express all of the transcriptional machinery (except the RE) necessary for this regulation. By contrast, cathepsin D remains unresponsive to estrogen and progesterone in Ishikawa cells. The cathepsin D gene is one of the first examples of an endogenous steroid responsive gene which can be controlled by steroids following stable transfection of a steroid receptor.
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PMID:Hormonal regulation of cathepsin D following transfection of the estrogen or progesterone receptor into three sex steroid hormone resistant cancer cell lines. 195 26

The precursor of cathepsin D, a lysosomal acidic protease, is secreted by human breast cancer cells, where its synthesis is specifically induced by estrogens and growth factors. In this study, we investigated the hormonal regulation of cathepsin D and its mRNA in uterine cells. In the Ishikawa endometrial cancer cell line, epidermal growth factor (EGF) increased the level of cathepsin D and its mRNA 2- to 3-fold. Although expression of the transiently transfected estrogen-responsive recombinant (Vit. tk. CAT) and the endogenous progesterone receptor was markedly increased by estradiol in Ishikawa cells, estradiol did not alter the level of cathepsin D or its mRNA. The progestin R5020 induced the expression of the LTR sp65 CAT, which contains the progesterone-responsive element of the MMTV but it too was without effect on cathepsin D. By contrast, the expression of cathepsin D gene, in normal rat uterus, was increased by R5020 but not by estradiol. We conclude that cathepsin D gene expression is regulated differently by sex steroid hormones in endometrial and breast cancer cell lines, whereas it is similarly induced by EGF in these cells.
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PMID:Differential regulation of cathepsin D by sex steroids in mammary cancer and uterine cells. 261 33

The concentration of the lysosomal protease Cathepsin D was tested by means of RIA. We used the cytosols of 44 endometrial carcinoma tissue specimens and of the corresponding normal endometrial tissues (n = 42) obtained from the respective uteri after hysterectomy. All patients were in postmenopausal stage. A significant higher level of Cathepsin D expression was found in endometrial carcinoma (median value = 24.2 pmol/mg) compared to normal endometrium (median value = 11.4 pmol/mg). No difference in Cathepsin D concentration was found in relation to grade of histological differentiation (G1 vs. G2/G3), depth of myometrial invasion and tumor stage (stage IA vs. IB/IC vs. > I) as well as state of estrogen receptor (ER) and progesterone receptor (PR). After an average follow-up period of 18 months there was no significant difference in survival rate of operated patients depending on Cathepsin D concentration. However, the prognostic significance of this parameter need to be evaluated after a long-term follow-up. The overexpression of Cathepsin D seems to be important for exact biologic characterization of each endometrial carcinoma with respect to local proteolytic activity. The enhanced activity of cathepsin D may therefore serve as an additional objective malignancy criterion independent of the well-known prognostic factors.
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PMID:[The prognostic value of cathepsin D in endometrial carcinoma]. 774 Aug 49

In MCF7 cells, transcription of the lysosomal protease cathepsin D is stimulated by estrogens via a non-consensus estrogen responsive element (ERE). By contrast, in estrogen responsive Ishikawa endometrial cancer cells, the cathepsin D gene is unresponsive to estrogens. We now show that the transfected cathepsin D promoter, which can be induced by estrogens in several cell types, is insensitive in Ishikawa cells. The block is not due to a mutation in the cathepsin D promoter or estrogen receptor, but involves the cathepsin D ERE, and implies a C at position 3 of the ERE sequence. Our results suggest that in Ishikawa cells, cathepsin D insensitivity to estrogen most likely occurs through a specific interaction with the ER, or with an endometrial factor which may compete with the ER for binding to the cathepsin D ERE.
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PMID:Insensitivity of cathepsin D gene to estradiol in endometrial cells is determined by the sequence of its estrogen responsive element. 807 26

Endometrial cancers have been considered to be less prevalent in Japan than in Western countries. However, with the increase in life expectancy, the Westernization of the Japanese diet, and changes in the hormonal environment, the prevalence of the disease has gradually increased even in our country. Similar increases in cancers of the breasts, lungs, colons, and ovaries have been noted in recent years. Much is still unknown regarding the pathogenesis and natural history of endometrial cancer. Although endometrial hyperplasia is considered to be a precancerous lesion of endometrial carcinoma, the relationship between those diseases has not been elucidated to the same degree as that between cervical cancer and cervical dysplasia, or carcinoma in situ. Research findings in genetic oncology have revealed that tumorigenesis involves a multi-step process. It is probable that activation of multiple genes, inactivation of anti-oncogenes, and disappearance of normal inhibitor genes occur in the process of the development of endometrial cancer. The purpose of this study is to elucidate the relationship between oncogenes and the development of endometrial cancer. In addition, the significance of endometrial hyperplasia as a clinical entity is also be evaluated. The roles played by oncogenes in endometrial cancers and endometrial hyperplasias were examined using the most recent molecular biological and immunohistochemical methods. Also, the differences in cellular proliferation and tissue invasiveness were discussed. Results obtained were as follows. Evaluation of cell proliferation (PCNA, FCM) revealed that there was no difference in proliferative activity between atypical hyperplasia and well differentiated adenocarcinoma. Evaluation of oncogene abnormalities (c-myc,c-erbB-2,K-ras,p53) revealed that the development of endometrial cancer was a multistep process involving several oncogenes, as it has been noted in the development of other cancers. Evaluation of extracellular matrix and related factors (cathepsin D, laminin, type IV collagen, tenascin, CD44) showed that tissue invasiveness differed between atypical hyperplasia and well differentiated adenocarcinoma.
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PMID:[Evaluation of the degree of biological behavior in endometrial hyperplasia and endometrial carcinoma: an investigation of proliferative activity, oncogene, and extracellular matrix]. 810 84

We inoculated the KLE human endometrial cancer, MCF-7 and ZR-75 human breast cancer, and PC-3 human prostate cancer cells into three-dimensional type I collagen gel system that contained uniformy dispersed MG-63 osteoblast-like cells. Then, we analyzed the morphological evidence of osteoblasts reaction, local invasion around the inoculated cancer cells and expression of the cathepsin D and urokinase-type plasminogen activator (uPA) around the sites of inoculation using immunocytochemistry. The prostate cancer cells produced morphological evidence of blastic reaction presented as an increased number of MG-63 osteoblasts and increase density of type I collagen around the sites of inoculation with PC-3 cells. The inoculated MCF-7 and ZR-75 cells decreased the density of type I collagen and number of osteoblasts and invaded the collagen gel around the sites of inoculation. The KLE endometrial cancer cells and cell-free media produced no reaction at the inoculation sites suggestive of cancer cell-specific interactions with osteoblasts in this system. The expression of uPA was remarkably higher at the inoculation sites of PC-3 cells as compared with those of the other cancer cells. Cathepsin D expression was higher at the sites of inoculation with KLE, MCF-7 and PC-3 cancer cells. MG-63 osteoblasts contained relatively low expression of uPA and cathepsin D. We conclude that this collagen gel system is a useful model for studying the morphological evidence of local invasion and osteoblasts reaction produced in response to local growth of metastatic cancer cell in vitro.
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PMID:Three-dimensional type I collagen gel system containing MG-63 osteoblasts-like cells as a model for studying local bone reaction caused by metastatic cancer cells. 891 85

HEC1A endometrial cancer cells express the wild-type form of the estrogen receptor (ER) and 17beta-estradiol (E2) induces proliferation of these cells. In contrast, tamoxifen only causes a minimal increase (<20%) in cell proliferation. In HEC1A cells transiently transfected with the C3-Luc plasmid derived from the complement C3 gene, both E2 and tamoxifen exhibited ER agonist activity and tamoxifen was also a partial antagonist for this response. The relative ER agonist/antagonist activities of E2, tamoxifen and ICI 182,780 were also investigated in HEC1A1 cells transiently transfected with two E2-responsive plasmids, pCATHD-CAT and pCKB-CAT which contain 5'-promoter inserts from the cathepsin D and creatine kinase B genes, respectively. The results showed that E2 and tamoxifen induced reporter gene activity in cells transiently transfected with both constructs. ICI 182,780 exhibited partial ER agonist activity only in cells transiently transfected with pCKB-CAT and antagonized E2-induced reporter gene activity using both the CKB- and CATHD-derived constructs. These results demonstrate that HEC1A endometrial cancer cells are E2-responsive and represent a useful cell culture model for understanding hormone/antihormone-induced endometrial cell responses.
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PMID:Estrogen- and antiestrogen-responsiveness of HEC1A endometrial adenocarcinoma cells in culture. 961 30

ECC-1 endometrial cancer cells express estrogen receptor alpha (ER(alpha)), and 17beta-estradiol (E2) induces cell proliferation, cathepsin D mRNA levels, and reporter gene activity in cells transiently transfected with constructs derived from the human cathepsin D and creatine kinase B (pCD and pCKB, respectively) gene promoters. The comparative antiestrogenic activity of aryl hydrocarbon receptor (AhR) agonists and ER(alpha) antagonists were also determined in these endometrial cancer cells. A functional AhR was expressed in ECC-1 cells and AhR agonists including 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) inhibited E2-induced cell proliferation and transactivation. This was comparable to inhibitory AhR-ER crosstalk in breast cancer cell lines. The pure ER antagonist ICI 182,780 also exhibited antiestrogenic activity in ECC-1 cells; however, the results obtained for 4'-hydroxytamoxifen were response-specific. 4'-Hydroxytamoxifen alone did not induce ECC-1 cell proliferation but completely inhibited E2-induced cell proliferation. 4'-Hydroxytamoxifen primarily exhibited ER antagonist activities in transactivation assays and this contrasted to the predominant ER agonist responses observed in other endometrial cancer cell lines. The unique cellular context of ECC-1 cells was confirmed using pCKB and constructs expressing wild-type ER or ER variants expressing activation function 1 (AF1) or AF2 (ER-AF1 and ER-AF2, respectively). 4'-Hydroxytamoxifen did not induce reporter gene activity in cells cotransfected with pCKB and ER-AF1 or ER-AF2; however, in cotreatment studies (4'-hydroxytamoxifen plus E2), 4'-hydroxytamoxifen inhibited E2-induced transcriptional activation by ER-AF1 or ER-AF2. Thus, the primarily antiestrogenic activity observed for 4'-hydroxytamoxifen in ECC-1 cells may be related to the inability to activate gene expression through AF1-dependent pathways.
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PMID:Estrogen and aryl hydrocarbon responsiveness of ECC-1 endometrial cancer cells. 1041 Dec 95

The pattern of transcriptional activation by 17beta-estradiol (E2) and 4-hydroxytamoxifen (4-OHT) was determined in ZR-75 and MDA-MB-231 breast, ECC1 and HEC1A endometrial and HepG2 liver cancer cell lines cotransfected with E2-responsive constructs and wild-type estrogen receptor alpha (ER alpha) or ER beta (ER beta) or variant forms of ER alpha expressing activation function 1, AF1 (ER alpha-AF1) or activation function 2, AF2 (ER alpha-AF2). The E2-responsive constructs contained promoter inserts from the human complement C3 (pC3), human cathepsin D (pCD) and rat creatine kinase B (pCKB) genes. Minimal ER beta-dependent transactivation (<2.5-fold induction) was observed for E2 only in ECC1 and MDA-MB-231 cells transfected with pCKB or pC3, whereas 4-OHT was inactive as an ER beta agonist for all promoters in the four cell lines. The ER alpha agonist and/or antagonist activities for E2 and 4-OHT were highly variable and the transactivation was dependent on ER subtype, ER alpha variant expressed, gene promoter, and cell context. For example, E2 did not activate pCD in HepG2 cells transfected with wild-type or variant ER alpha, whereas E2 activated reporter gene activity in the four endometrial and breast cancer cell lines transfected with ER alpha and pCD, pCKB or pC3. Hormone activation of these constructs by ER alpha-AF1 or ER alpha-AF2 was highly variable among the different cell lines and even in the same cell line transfected with the three E2-responsive constructs. Similar variability was observed for 4-OHT. For example, 4-OHT activates pC3 in HepG2 cells transfected with ER alpha or ER alpha-AF1, and pCKB in HEC1A cells. However, AF1-dependent activation by 4-OHT is not observed for pCKB in ECC1 cells or for pC3 and pCD in HEC1A or ECC1 endometrial cancer cells. The results of this study suggest that transcriptional activation by E2 and 4-OHT induces recruitment of different transcription factor complexes that are dependent on the cell type and also the gene promoter.
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PMID:17 beta-estradiol- and 4-hydroxytamoxifen-induced transactivation in breast, endometrial and liver cancer cells is dependent on ER-subtype, cell and promoter context. 1264 21

Cathepsin D (CathD), a lysosomal aspartyl protease secreted by normal and malignant cells, is considered to be involved in breakdown of the extracellular matrix. Aim of the present study was to determine the frequency and tissue distribution of CathD in normal, hyperplastic and malignant endometrium. Paraffin-fixed endometrial tissue was obtained from premenopausal women in the proliferative phase (n = 5), early secretory phase (n = 4) and late secretory phase (n = 4) as well as glandular-cystic hyperplasia (n = 5), endometrial polyps (n = 5), endometrial polyps from the use of tamoxifen (n = 5), adenomatous hyperplasia (AH) grade I (n = 5), grade II (n = 4), grade III (n = 5) and endometroid adenocarcinoma (n = 5). CathD expression was evaluated with the IRS score and ANOVA analysis was used for statistical evaluation. CathD was primarily localised in luminal and glandular epihelium with little staining in stromal cells. The expression of CathD was significantly higher during the late secretory phase than in the proliferative phase. Highest expression of CathD was observed in the late secretory phase and in glandular-cystic hyperplasia, whereas endometroid carcinoma showed no expression. A continuous increase in CathD expression was observed in AH, with a significant difference between AH grade I and III. In conclusion, CathD was found to be expressed in normal and hyperplastic endometrial tissue. CathD immunostaining in normal endometrial glands varied on the basis of the phase of the menstrual cycle, suggesting physiological functions of CathD in endometrial maturation and degradation. Adenocarcinomas did express significant lower amounts of CathD. Therefore, the prognostic value of this parameter remains uncertain. A continuous increase in CathD immunostaining was observed in AH. Since AH grade III can be considered as a precursor of endometrial cancer, CathD could be a possible parameter for assessing malignant transformation.
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PMID:Cathepsin D expression in normal, hyperplastic and malignant endometrial tissue: an immunohistochemical analysis. 1367 18


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