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The relationship between the cellular uptake of glucocorticoid hormones, the binding of these hormones to specific in vitro receptors, and the induction of mouse mammary tumor viruses in an established mouse mammary tumor cell line was highly correlated. These results suggest that the induction of mouse mammary tumor virus by glucocorticoid hormones is a physiological process acting through a mechanism of high affinity, saturable steroid-receptors. A temperature-sensitive or salt-dependent step following glucocorticoid-receptor interaction was required for nuclear uptake of the steroid. Induction studies with different adrenocorticoids indicate that the synthetic glucocorticoid, dexamethasone (1,4-pregnadiene-9-fluor-16alpha-methyl-11beta,17alpha,21-triol-3,20-dione), is the most potent inducer of mouse mammary tumor viruses and all steroids which caused significant induction were glucocorticoids. Other glucocorticoids appear to stimulate murine mammary tumor virus production by a mechanism similar to that of dexamethasone; for example, corticosterone competes with dexamethasone for binding to the glucocorticoid receptor and blocks the uptake of dexamethasone into cells. Progesterone also blocks the cellular uptake of dexamethasone and can bind to the glucocorticoid receptor at low concentrations (10-7 to 10-8 M) but progesterone does not consistently induce virus at hormone concentrations even as high as 10-4 M. Thus, in this system, binding to a cytoplasmic receptor is necessary but not sufficient for induction by glucocorticoids. Estrogens and androgens interfere with receptor binding and cellular uptake of dexamethasone but only at much higher concentration (10-4 M) than progesterone, and do not induce mammary tumor virus production. Although there was a positive correlation between steroid structure, binding, and biologic induction, other factors clearly affect the physiological manifestations of steroid actions. Mouse cells with comparable cytoplasmic receptor levels and comparable nuclear uptake differed absolutely in their degree of murine mammary tumor virus induction following hormone treatment. Although all mouse cells examined contain comparable levels of murine mammary tumor virus DNA, only cells producing constitutive levels of murine mammary tumor virus RNA could be induced to higher levels by a variety of glucocorticoids.  相似文献   

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Sequences within the long terminal repeat region (LTR) of mouse mammary tumour virus (MMTV) confer progestin inducibility to either the tk-promoter or the MMTV-promoter in T47D cells, a human mammary tumour cell line which possesses high constitutive levels of progesterone receptor. In a clone of MCF7 cells, another human mammary tumour cell line with a low level of progesterone receptor, as well as in rat fibroblasts, glucocorticoid but not progestin induction is observed. The effect of the progesterone analogue R5020 is much more pronounced than the effect of dexamethasone, and at the concentrations required for maximal induction, R5020 does not significantly compete with binding of dexamethasone to the glucocorticoid receptor. In conjunction with previous results on the DNA binding of the glucocorticoid and progesterone receptors, these data show that two different steroid hormones, acting through their respective receptors, can mediate the induction of gene expression by interacting with the same DNA sequences. Our results suggest that the hormone regulatory element of MMTV may primarily be a progesterone-responsive element in mammary cells.  相似文献   

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Progesterone induction of metallothionein-IIA gene expression   总被引:8,自引:0,他引:8  
Expression of the metallothionein gene is known to be induced by glucocorticoids in a variety of cells. Here we show that in human cell lines containing functional progesterone receptors, the endogenous metallothionein-IIA (hMTIIA) gene is inducible by the synthetic progestins R5020 and medroxy-progesterone acetate. That this effect reflects a direct interaction with the metallothionein gene is supported by our finding that the partially purified progesterone receptor binds to the promoter region of the gene in vitro. The limits of the DNase I footprint and the guanine residues protected in methylation studies with the progesterone receptor are similar to those previously described for the glucocorticoid receptor. Thus, the hormone regulatory element of the human metallothionein-IIA gene can mediate regulation by both glucocorticoids and progestins, as does the hormone regulatory element of mouse mammary tumor virus.  相似文献   

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The hormone regulatory element (HRE) of mouse mammary tumor virus can mediate activation of an adjacent promoter by glucocorticoids and progestins. A detailed comparison of the DNA binding of receptors for both hormones using DNAase I footprinting and methylation protection detects clear differences in their interactions with the HRE region between positions -130 and -100. Binding studies and gene transfer experiments with a variety of mutants covering the entire HRE demonstrate differences in the relevance of the individual sequence motifs for induction by each hormone. The influence of changes in the angular orientation of receptor binding sites is also different for glucocorticoid and progesterone induction. In transfection experiments with mutated HREs, we find a functional cooperation between the receptor binding sites that does not correlate with variations in the in vitro affinity of the receptors for the corresponding DNA fragment.  相似文献   

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Multihormonal regulation on the long terminal repeat (LTR) region of mouse mammary tumour virus (MMTV) has been studied using T-47-D human breast cancer cells stably transfected with the steroid sensitive LTR-C3 chimaeric gene. The specificity of steroid action on transfected LTR sequences has been compared with regulation of endogenous cellular markers. We conclude that the hormone response element of the LTR can be induced by physiological concentrations of androgen, progestin and glucocorticoid. 17 beta-Oestradiol did not regulate the LTR at physiological levels but an effect was found at 10(-6) M. This effect was not inhibited by antioestrogen nor was it reproduced by the synthetic oestrogen diethylstilboestrol suggesting such effects do not occur via the oestrogen receptor. The antioestrogens tamoxifen and transhydroxytamoxifen do not induce the LTR. No significant steroid competition was found in LTR regulation: whilst oestradiol did not act at physiological concentration it did not interfere with induction by androgen, progestin or glucocorticoid. Such gene regulation did not simply follow receptor status of the cells nor was it reflected in patterns of growth regulation by steroids. The implications of these findings on the mechanism of steroid hormone action are discussed.  相似文献   

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Glucocorticoid regulation of mouse mammary tumor virus gene expression.   总被引:9,自引:0,他引:9  
Glucocorticoid hormones act rapidly and specifically to stimulate the synthesis of mouse mammary tumor virus RNA in a variety of mouse mammary tumor cells and infected heterologous cells. The increase in viral RNA production appears to be mediated by receptor proteins and requires the presence of basal levels of viral RNA. Infection of heterologous cells with MMTV may alter host cell responses to glucocorticoids; in addition, production of unintegrated viral DNA in these cells has provided reagents required for studying the structure and function of the viral DNA itself. The advent of new techniques for genetic manipulation of eukaryotic cells and for isolation of large amounts of specific DNA sequences should now permit detailed analyses of steroid hormone action in this system.  相似文献   

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