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Query: UMLS:C0476089 (
endometrial cancer
)
11,379
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recent experimental results from our laboratories revealed the following facts: Addition of GMP to homogenates or cytosol prepared from endometrial tissue or cultured endometrial adenocarcinoma cells during the assay for specific estrogen binders markedly increases specific binding levels. The effect is completed in about 15 min at 4 C (Fleming et al, 1983). Cyclic AMP has the opposite effect and in many cases lowers the number of binding sites to undetectable levels. ATP, a nucleotide that stimulates a particulate form of guanylate cyclase, Na2MoO4, a compound that can elevate cGMP levels (Fleming and Blumenthal, unpublished) and GTP, a metabolic precursor of cGMP, increase specific estradiol binding in the presence of plasma membranes and soluble factors. Cyclic AMP reduces the levels of estrogen binding when added to cell homogenates or to cytosol and counteracts the effects of cGMP, MoO4, ATP and GTP. ATP is required for the expression of cGMP and cAMP effects on estradiol binding. It is therefore likely that phosphorylations are involved in the generation and inactivation of estrogen binding sites. Divalent cation requirements for these effects also suggest participation of protein kinases in these processes. The reported effects of nucleotides and molybdate have been observed in specimens of histologically normal endometrium, in specimens of
endometrial carcinoma
, in two endometrial adenocarcinoma cell lines, HEC-1 and HEC-50 (Suzuki et al, 1980), and in two breast cancer cell lines, CG-5, a variant of MCF-7 obtained in Iacobelli's laboratory (Natoli et al, 1983), and in T47D) (Fleming et al, in press) Rapid changes in the levels of estrogen binding capacity observed in endometrial cells in culture can be associated with changes in cGMP/cAMP ratios shown, to vary during the cell cycle. Although it has not yet been demonstrated that cGMP-induced increases in specific estrogen binding can enhance responses to available estrogens, such possibility is of potential importance. Reduction of estrogen receptor levels in patients with cancers of estrogen sensitive tissues may inhibit tumor growth promoted by endogenous estrogen. Cho-Chung et al have recently reported that
cholera
toxin causes a reduction in estrogen receptor levels and arrests hormone dependent growth of DMBA-induced mammary carcinoma in rats (Cho-Chung et al, 1983). They postulated that the effect of
cholera
toxin is mediated by a cAMP effect on the estrogen receptor, an hypothesis supported by the observation that only tumors containing receptor responded to treatment. Conversely, cGMP-induced increases in specific estrogen binders may be useful in promoting a response of tumors to estr
...
PMID:Regulation of estrogen receptor levels in endometrial cancer cells. 670 55
A plasminogen activator (PA) system is involved in ovulation, implantation, tumor invasion and metastasis. In order to clarify the regulation of this PA system in endometrial cells, we examined which agent affecting cellular function altered tissue-type plasminogen activator (t-PA) secretion by
endometrial carcinoma
cell line (KLE cells) in vitro. Triiodothyronine, retinoic acid, insulin, 8-bromo-cAMP, PDGF, IGF-I, basic FGF or TNF-alpha did not alter t-PA secretion while the activator of protein kinase C, phorbol myristate acetate (PMA) stimulated t-PA secretion in a dose-dependent fashion (10(-10)-10(-8) M). The time required to give a statistically significant increase in t-PA over control was 3 hours, and the maximal increase was seen after 24 hours of exposure. Another active phorbol ester, PDD also stimulated t-PA secretion while inactive forms of phorbol ester, 4 alpha-PDD and phorbol did not alter it.
Cholera
toxin or 8-bromo-cAMP did not affect t-PA secretion, but enhanced PMA-stimulated t-PA secretion. Cycloheximide and actinomycin D completely abolished PMA-stimulated t-PA secretion. These results suggest that (1) t-PA secretion in the
endometrial carcinoma
cell is modulated by a protein kinase C system, (2) This effect is through new RNA production and protein synthesis. (3) There is a complicated relationship between protein the kinase C and protein kinase A system as to the regulation of t-PA secretion. This would be a suitable model to clarify the PA system in endometrial cells.
...
PMID:[Effect of phorbol ester on tissue-type plasminogen activator (t-PA) secretion in endometrial carcinoma cell line in vitro]. 812 84
Oncogenic RAS proteins are commonly expressed in human cancer. To be functional, RAS proteins must undergo post-translational modification and localize to the plasma membrane (PM). Therefore, compounds that prevent RAS PM targeting have potential as putative RAS inhibitors. Here we examine the mechanism of action of oxanthroquinone G01 (G01), a recently described inhibitor of KRAS PM localization. We show that G01 mislocalizes HRAS and KRAS from the PM with similar potency and disrupts the spatial organization of RAS proteins remaining on the PM. G01 also inhibited recycling of epidermal growth factor receptor and transferrin receptor, but did not impair internalization of
cholera
toxin, indicating suppression of recycling endosome function. In searching for the mechanism of impaired endosomal recycling we observed that G01 also enhanced cellular sphingomyelin (SM) and ceramide levels and disrupted the localization of several lipid and cholesterol reporters, suggesting that the G01 molecular target may involve SM metabolism. Indeed, G01 exhibited potent synergy with other compounds that target SM metabolism in KRAS localization assays. Furthermore, G01 significantly abrogated RAS-RAF-MAPK signaling in Madin-Darby canine kidney (MDCK) cells expressing constitutively activated, oncogenic mutant RASG12V. G01 also inhibited the proliferation of RAS-less mouse embryo fibroblasts expressing oncogenic mutant KRASG12V or KRASG12D but not RAS-less mouse embryo fibroblasts expressing oncogenic mutant BRAFV600E. Consistent with these effects, G01 selectively inhibited the proliferation of KRAS-transformed pancreatic, colon, and
endometrial cancer
cells. Taken together, these results suggest that G01 should undergo further evaluation as a potential anti-RAS therapeutic.
...
PMID:An oxanthroquinone derivative that disrupts RAS plasma membrane localization inhibits cancer cell growth. 2997 Jun 15
