Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined the interaction of dexamethasone with the ZR75-1 human breast cancer cell line to determine if glucocorticoids might directly inhibit growth of breast cancer cells. Growth of these cells in serum-free medium was stimulated significantly by physiological concentrations of insulin (0.1 to 1.0 nM). Pharmacological concentrations of dexamethasone (10 nM) reduced cell number below that found in controls and nearly abolished the effect of insulin after several days in culture. Thymidine and uridine, but not leucine, incorporation into macromolecules or acetate incorporation into fatty acids were similarly inhibited by dexamethasone in the presence of absence of insulin. Dexamethasone did not inhibit insulin effects by altering insulin receptor affinity or concentration, as determined by Scatchard analyses of insulin binding. Net thymidine uptake into the trichloroacetic acid-soluble fraction of the cell was stimulated by insulin and inhibited by dexamethasone also inhibited thymidine kinase activity multiple potential sites of glucocorticoid action that directly oppose the effects of insulin. They also suggest that glucocorticoids have a direct inhibitory effect on proliferation of human breast cancer cells, which may help explain breast tumor regression following pharmacological glucocorticoid therapy.
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PMID:Direct inhibition of growth and antagonism of insulin action by glucocorticoids in human breast cancer cells in culture. 44 41

The possibility of differentiating estrogen-sensitive human breast cancer using incorporation studies with labeled uridine as a precursor of RNA metabolism is described. The purpose of this study was to explore inadequate function of the estrogen receptor as an alternative or supplementary aid in selecting patients for hormonal manipulation. The disadvantage of the test is that only hormone dependence of a proliferating tumor cell population can be evaluated. Highly differentiated breast cancer cells exhibit the greatest estrogen sensitivity. The hormone-dependent tumors of premenopausal women show an increase in RNA synthesis, whereas uridine incorporation appeared to be inhibited in postmenopausal women.
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PMID:[Effect of estradiol on RNA biosynthesis of human breast carcinoma cells in vitro]. 45 27

High performance liquid chromatography (HPLC) was used to determine the UV profiles of serum samples taken postoperatively from 22 patients with histologically documented breast cancer, 8 patients with benign breast fibrocystic changes and 10 normal subjects. The analyses were performed on coded serum samples and after they were completed, the code was broken and the results correlated with the clinical data. Only one ml of serum was required for the HPLC analysis and identification. Detection limits for the nucleosides and bases were in the 10--20 pmol range and the injection volume of the deproteinated serum was 75 mul. The UV profiles of the normal subjects were very reproducible and similar to those of the patients with benign fibrocystic changes. The profiles of some of the cancer patients were distinctly different from the two other groups, 1-methylinosine and N2-methylguanosine, which were not detected in sera from normal subjects and patients with benign fibrocystic changes, were found in 45.5% and 22.7% of the cancer patients, respectively. Patients with the metastatic disease also showed elevated levels of guanosine and uridine. Only one false positive was found in the normal population. At present, it is not clear whether this indicates a subclinical manifestation of the disease and it must await further follow-up.
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PMID:High performance liquid chromatographic determination of serum UV profiles of normal subjects and patients with breast cancer and benign fibrocystic changes. 48 2

In MCF-7 human breast cancer cells, insulin stimulated the rate of [3H]uridine incorporation into RNA, [3H]thymidine incorporation into DNA, and [3H]leucine incorporation into protein. In addition, hydrocortisone appeared to augment the effect of insulin, by further increasing the rate of [3H]uridine incorporation into RNA and [3H]thymidine incorporation into DNA. A significant increase in the total amount of DNA and protein was present in cultures treated with insulin compared to untreated controls. Hydrocortisone was shown to augment the insulin effect on total protein accumulation and total RNA accumulation in MCF-7 cells.
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PMID:Hydrocortisone enhancement of insulin's action on macromolecular synthesis in MCF-7 cells. 88 87

The mechanisms of steroid and peptide hormone action in human breast cancer are poorly understood. We have previously characterized a cell line of human breast cancer in long-term tissue culture that possesses various steroid hormone receptors and responses, providing a model for the study of steroid hormone action. The present studies describe a human breast cancer in vitro that responds to physiologie concentrations of insulin with an increased rate of macromolecular synthesis and growth. Thymidine and uridine incorporation in cells in serum-free medium are stimulated by 10(-11) M insulin and are maximal with 10(-8) M. Leucine incorporation is stimulated by 5 X 10(-11) M insulin and is maximal with 10(-9) M. Significant stimulation of uridine and leucine incorporation is evident by 3 hr and maximal by 10 hr. A 10-hr lag period exists for insulin stimulation of thymidine incorporation, which is maximal form 14 to 24 hr. The effect of 10(-8) M insulin on macromolecular synthesis is accompanied by a 69% increase above controls in the number of cells after 24 hr. The effect on macromolecular synthesis is observed in glucose-free medium. Insulin's effect on protein synthesis is not blocked by inhibition of RNA synthesis with actinomycin D. Glucocorticoids partially inhibit the action of insulin in these cells. This system provides a model for studying insulin action, and suggests that some human breast cancer may show growth regulation by insulin.
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PMID:Hormone responsive human breast cancer in long-term tissue culture: effect of insulin. 107 4

Synchronization of mammalian cells is essential for investigations involving cell proliferation. A simple method for obtaining synchrony in all types of cells, through several cycles and with minimal overall metabolic perturbations, has not yet been available. We describe a procedure for synchronizing normal as well as tumor cells reversibly in the G1 phase of the cell cycle using Lovastatin, an inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A reductase. This method of synchronization was successful with all cell lines tested, including normal and tumor cells of mouse, hamster, and human origins. For example, when MCF-7 human breast cancer cells were synchronized with Lovastatin and released by the addition of mevalonic acid (the product of the reaction catalyzed by 3-hydroxy-3-methylglutaryl-coenzyme A reductase), 3 phases of accelerated thymidine incorporation into DNA corresponding to 3 S phases of the cell cycle occurred during a 90-h period of cell replication. Thymidine incorporation was decreased to less than or equal to 4% during the initial lag of 18 h before the first S phase, and maximum incorporation was then achieved after only 6 h. The antibody Ki-67, which detects a nuclear antigen associated with proliferation, was present in cells arrested with Lovastatin. This fact, together with the lack of thymidine incorporation during the initial lag time, indicates that the cells were arrested in the G1 and not in the G0 phase of the cell cycle. Furthermore, in synchronized tumor-derived human breast epithelial cells, histone H4 RNA was low after Lovastatin release and increased with the onset of DNA synthesis. Concomitant synthesis of DNA and histone H4 RNA expression could be observed for 2 cycles. Minimal perturbations of general metabolic functions occurred since the rate of RNA, protein, and initial DNA synthesis were unaffected by Lovastatin, as evidenced by [3H]uridine, [3H]leucine, and initial [3H]thymidine incorporation. Finally, while the Lovastatin-induced synchronization was overcome by mevalonic acid, addition of squalene or cholesterol-ethanol had no such effect. Thus, Lovastatin appears to prevent formation of an early intermediate in the cholesterol pathway that is essential for progression of cells through early G1 phase.
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PMID:Synchronization of tumor and normal cells from G1 to multiple cell cycles by lovastatin. 171 13

5-Fluorouracil (5-FU) is an anticancer drug used in patients for the treatment of gastric and breast cancer and used either alone or in combination with methotrexate is one of the few drugs with some effect on colon cancer. 2'-Deoxy-5-fluorouridine (5-FUdr) (1) is an analogue based on 5-FU and can be covalently linked to a murine anti-Ly-2.1 monoclonal antibody (mAb) with the active ester derivative of 2'-deoxy-5-fluoro-3'-O-(carboxypropanoyl)uridine (5-FUdr-succ) (4). Such immunoconjugates can contain up to 42 residues of drug, although the most antibody activity was retained when substitution ratios were between 10 and 25 molecules of drug to mAb. In a cytotoxicity assay, 50% inhibition of [3H]deoxyuridine incorporation (IC50) with a murine Ly-2.1+ve thymoma cell line was 6 nM for 5-FUdr-anti-Ly-2.1, which is 12-fold more than that for free 5-FUdr (IC50 = 0.51 nM) but similar to that of 5-FUdr-succ (IC50 = 5.2 nM). The 5-FUdr-monoclonal antibody conjugates (5-FUdr-mAb) were 100-fold more active on the Ly-2.1+ve E3 cell line than on the Ly-2.1-ve BW5147 OU- cell line. The high in vitro activity and specificity of 5-FUdr-MoAb conjugates indicates that potent in vivo activity of these conjugates should be expected.
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PMID:In vitro antitumor activity of 2'-deoxy-5-fluorouridine-monoclonal antibody conjugates. 183 Oct 49

The mechanism of action of RU-486 on the progesterone receptor was examined in MCF7 breast cancer cells in vitro, using messenger RNA (mRNA) for the enzyme fatty acid synthetase (FAS) as an indicator. Transcription and half-life of FAS mRNA were assayed by Northern Blot hybridization, with the progestin R5020 as a reference, and the C3 and actin clones as negative controls. Incubating MCF7 breast cancer cells for 5 or 48 hours with RU-486 decreased FAS gene transcription, and inhibited synthesis of its mRNA 50%. Paradoxically, RU-486 lengthened the half-life of FAS mRNA from 6 to 24 hours, as demonstrated by short-term cell labeling with tritiated uridine in the presence of DNA synthesis inhibitors actinomycin D or cordycepin. This treatment did not stabilize mRNA for C3 or actin. The half-size of FAS mRNA was increased from 6 to 26 hours as measured by a pulse-chase experiment. The steady state level of FAS mRNA doubled in a 2-day incubation. The fact that the glucocorticoid dexamethasone did not stabilize FAS mRNA in MDA-MB23 breast cancer cells suggested that the observed stabilization of mRNA in the RU-486 experiments is mediated by the progesterone receptor. This is the 1st demonstration that a steroid hormone antagonist prevents transcription of a regulated gene, but stabilizes its mRNA, suggesting 2 different regulatory steps.
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PMID:The anti-progestin RU486 stabilizes the progestin-induced fatty acid synthetase mRNA but does not stimulate its transcription. 202 39

1. Periodate-oxidized 3-aminopyridine-adenine dinucleotide phosphate inhibited the proliferation of oral epithelium cancer and breast cancer cell lines. 2. The fast growing less differentiated embryonic kidney cell was more affected by the reagent then the embryonic lung fibroblast cell. 3. Incorporation of [3H]leucine of the treated cancer cells was inhibited. Incorporation of [3H]uridine was increased. Incorporation of [3H]thymidine was first increased and then decreased. 4. Tumor malic enzyme activity was inhibited by the reagent; but the treated cells did not show any difference in malic enzyme or glucose-6-phosphate dehydrogenase levels.
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PMID:Inhibition of human cancer cell growth by periodate-oxidized 3-aminopyridine adenine dinucleotide phosphate. 217 73

Progestin antagonism of estrogen action is thought to be due, at least in part, to progestin down-regulation of the estrogen receptor (ER). The molecular mechanisms subserving this effect, and the functional consequences in terms of target cell sensitivity to estrogens, are poorly understood. The present study was undertaken to address these issues with particular emphasis on progestin regulation of ER gene expression at the mRNA level. The T-47D human breast cancer cell line was treated with the synthetic progestin, ORG 2058, and the resultant changes in ER mRNA and ER levels determined by Northern analysis and radioligand binding, respectively. Treatment of T-47D cells with ORG 2058 resulted in rapid down-regulation of ER mRNA levels to a nadir of 35-40% of control by 6 h. This fall in ER mRNA levels was accompanied by a slower but more sustained fall in ER binding to a nadir of 20% of control at 24 h. Between 12 and 24 h ER mRNA levels recovered partially while ER ligand binding continued to fall. At 48 h both ER mRNA and ER concentrations remained depressed, although the latter to a greater extent. ER mRNA half-life was determined by [3H]uridine incorporation to be approximately 60 min and was unaffected by progestin treatment during the early rapid phase of ER mRNA down-regulation. These data demonstrate that progestins cause rapid down-regulation of the ER mRNA and suggest that during the early rapid phase of this effect, reduced transcription of the ER gene rather than altered ER mRNA half-life mediate this effect.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Progestin regulation of estrogen receptor messenger RNA in human breast cancer cells. 223 41


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