UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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In order to obtain steroid-independent probes for human progesterone receptor (PR), the A [88-93 kilodalton (kDa)] and B (109-119 kDa) forms of PR from T47D human breast cancer cells were partially purified and used to generate a series of 14 monoclonal antibodies. Initially, unoccupied PR was isolated from cytosol extracts by steroid affinity chromatography, followed by chromatography on diethylaminoethyl Bio-Gel. The partially pure (3-15%) PR consisted of two steroid-binding components that migrated at 89 kDa and 109 kDa in reducing sodium dodecyl sulfate gels after being photoaffinity labeled with the synthetic progestin [3H]R5020. Two unique monoclonal antibodies to PR were derived from a male Lewis rat immunized with this material. One of these antibodies (JU601) was coupled to Sepharose 4B and used to purify T47D nuclear PR for additional immunizations. Highly purified (30-70%) PR migrated as 93 kDa and 119 kDa progestin-binding proteins in sodium dodecyl sulfate gels. In all, thirteen monoclonal antibodies were obtained that recognized epitopes shared by both receptor forms. One mouse immunoglobulin G (KC146) was completely specific for the larger B form. Interestingly, the epitope for this antibody was present on all PRs tested, including the B form of PR from chicken oviduct, whereas nine other antibodies recognized only human PR and the remaining four cross reacted with rabbit PR. With the exception of the JU145 and JU601 rat immunoglobulin Ms, all antibodies appeared to be completely specific for the A or B forms of PR. Each recognized the cytosol and nuclear forms of occupied as well as unoccupied PR. Although the relationship between B and A was not established, it is clear that an amino-terminal region of B is not present in A, and that a significant portion of A and B are either identical or very similar in amino acid sequence.
Mol Endocrinol 1988 Aug
PMID:Purification of T47D human progesterone receptor and immunochemical characterization with monoclonal antibodies. 246 80

Using crude progesterone receptor preparations from T47D human breast cancer cells, we show by immunoprecipitation assay that receptor specifically and with high affinity recognizes the hormone response element (HRE) of the mouse mammary tumor virus (MMTV). The use of crude preparations minimizes alterations of receptors or loss of associated factors that may occur during purification. Specific binding was obtained at 1:1 molar ratios of receptor to DNA, and HRE sequences are recognized with an affinity at least 3 orders of magnitude greater than nonspecific DNA. We have compared the DNA-binding activities of different forms of progesterone receptors. The unliganded 8S cytosol receptor had low but detectable binding activity for MMTV DNA. Addition of hormone to cytosol produced a small but consistent 2.5-fold increase. In vitro methods of transforming cytosol receptors from an 8S to a 4S species failed to increase DNA-binding further. By contrast, 4S receptors bound by R5020 in whole cells and extracted from nuclei by salt, displayed a substantially higher (average, 11-fold) binding activity than an equal number of unliganded cytosol receptors. The dissociation constants for cytosol and nuclear receptor binding to MMTV DNA were similar (approximately 2 x 10(-9) M). Thus, nuclear receptors possess a higher capacity for binding to specific recognition sequences. These results suggest that hormone or a hormone-dependent mechanism increases the intrinsic DNA-binding activity of receptors independent of receptor transformation from 8S to 4S. Further experiments indicate that a nonreceptor activity in nuclear extracts can increase the sequence-specific DNA-binding activity of cytosol receptors. This activity is present in both T47D cells and receptor-negative MDA-231 cells. We conclude that the higher DNA-binding activity of the nuclear receptor-hormone complex is due in part to receptor interaction with other nuclear proteins or factors. Such interactions may function to maintain receptors in a disaggregated active complex or to stabilize their binding to specific DNA sites.
Mol Endocrinol 1989 Feb
PMID:Human progesterone receptor binding to mouse mammary tumor virus deoxyribonucleic acid: dependence on hormone and nonreceptor nuclear factor(s). 254 Apr 30

The complete coding region of the human androgen receptor gene has been isolated from a genomic library. The information for the androgen receptor was found to be divided over eight exons and the total length of the gene exceeded 90 kb. The sequence encoding the N-terminal region is present in one large exon. The two putative DNA-binding fingers are encoded separately by two small exons. The information for the hormone-binding domain is split over five exons. Positions of introns are identical to those reported for the chicken progesterone receptor and the human oestrogen receptor genes. Southern blot analysis of genomic DNA with various specific probes reveal that the human androgen receptor is encoded by a single-copy gene.
J Mol Endocrinol 1989 May
PMID:Structural organization of the human androgen receptor gene. 254 71

Progesterone receptor-containing T47D human breast cancer cells are responsive to progestins but fail to respond to other steroid hormones, in particular dexamethasone, because they have no measurable levels of receptors for estrogens, androgens, or glucocorticoids. To quantitatively study dual responsiveness of the mouse mammary tumor virus (MMTV) promoter to progestins and glucocorticoids, we have stably transfected T47D cells with a glucocorticoid receptor (GR) expression vector. A cloned derivative (A1-2) was isolated that expresses a normal, full length GR, as assessed by steroid binding and Western immunoblot with a monoclonal anti-GR antibody. Moreover, GR is expressed at levels (80,000-100,000 molecules per cell) comparable to the high levels of endogenous progesterone receptor (200,000 molecules per cell). In A1-2 cells transiently transfected with an MMTV-chloramphenicol acetyl transferase reporter gene, induction by glucocorticoid was substantially greater (5-fold) than induction mediated by progestins. These results suggest that glucocorticoids may be the primary regulator of MMTV.
Mol Endocrinol 1989 Aug
PMID:A quantitative comparison of dual control of a hormone response element by progestins and glucocorticoids in the same cell line. 255 Aug 15

Estrogen and progesterone or estrogen and glucocorticoid receptors functionally cooperate in gene activation if their cognate binding sites are close to one another. These interactions have been described as synergism of action of the steroid receptors. The mechanism by which synergism is achieved is not clear, although protein-protein interaction of the receptors is one of the favorite models. In transfection experiments with receptor expression vectors and a reporter gene containing estrogen and progesterone-glucocorticoid receptor binding sites, we have examined the effects that different portions of the various receptors have on synergism. N-terminal domains of the chicken progesterone and human glucocorticoid receptors, when deleted, abolished the synergistic action of these receptors with the estrogen receptor. Deletion of the carboxy-terminal amino acids 341 to 595 of the estrogen receptor produced a mutant receptor that could not trans-activate on its own. This mutant receptor did not affect the action of the glucocorticoid receptor but functioned synergistically with the progesterone receptor. We therefore conclude that the synergistic action of the receptors for estrogen and progesterone is mechanistically different from the synergistic action of the receptors for estrogen and glucocorticoid.
Mol Cell Biol 1989 Dec
PMID:Different regions of the estrogen receptor are required for synergistic action with the glucocorticoid and progesterone receptors. 258 23

The present study was designed to investigate whether inhibition of progesterone receptor (PR) gene transcription and/or regulation of PR mRNA half-life were involved in the progestin-mediated decrease of PR in T-47D human breast cancer cells. Cells were treated with the progestin ORG 2058 and PR mRNA measured by Northern blot analysis of total RNA. A major PR mRNA around 13.5 kilobases and minor species around the 28S ribosomal RNA subunit were decreased upon ORG 2058 treatment. The decrease was not detectable until 2-3 h after treatment and was the same at all ORG 2058 concentrations (1-100 nM) tested. The decrease in PR mRNA was unaffected by actinomycin D in the first 3 h but was inhibited thereafter. There was a partial recovery of PR mRNA levels 24 h after ORG 2058 exposure. Immunoblot analysis showed that immunoreactive PR decreased in parallel with PR mRNA. The rate of protein loss in the first 12 h after progestin treatment was related to the ORG 2058 concentration used. Nuclear run-on experiments showed that ORG 2058 caused a decrease of up to 70% in the transcription rate of the PR gene. The half-life of PR mRNA was shown to be 2-2.5 h by [3H]uridine incorporation, which was much shorter than estimates obtained using actinomycin D, and was unaffected by ORG 2058. In summary, these data have shown that the mechanism by which progestins decrease the concentration of PR includes inhibition of transcription of the PR gene.
Mol Endocrinol 1989 Sep
PMID:Progestin inhibition of progesterone receptor gene expression in human breast cancer cells. 260 65

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.
Mol Cell Endocrinol 1989 Oct
PMID:Differential regulation of cathepsin D by sex steroids in mammary cancer and uterine cells. 261 33

Previous analyses have indicated that steroid hormone receptors undergo an allosteric change in structure upon binding by the steroid ligand. This structural change was envisioned as an intramolecular unmasking of the protein's DNA-binding domain, thus allowing the receptor to function in gene regulation. We report an analysis of the effect of hormone on the DNA-binding activity of the chicken progesterone receptor. Using an isocratic elution of DNA affinity columns we show that unliganded receptor (aporeceptor) can bind a 23-basepair progesterone response element with high affinity and a high degree of sequence preference. Hormone causes a 1.5-fold increase in affinity for the PRE sequence and a 2-fold decrease in affinity for non-specific DNA. Kinetic analysis of the off-rate of receptor-DNA complexes is consistent with this minor effect of hormone. In addition, gel retardation analysis of receptor-progesterone response element complexes further substantiates that hormone is not required for sequence-specific DNA binding. These results indicate that hormone is not necessary for the progesterone receptor to fold into a conformation that recognizes specific gene regulatory sequences.
Mol Endocrinol 1989 Feb
PMID:Hormone-induced changes in the in vitro DNA-binding activity of the chicken progesterone receptor. 271 Jan 37

The protein composition of the avian progesterone receptor was analyzed by immune isolation of receptor complexes and gel electrophoresis of the isolated proteins. Nonactivated cytosol receptor was isolated in association with the 90-kilodalton (kDa) heat shock protein, hsp90, as has been described previously. A 70-kDa protein was also observed and was shown by Western immunoblotting to react with an antibody specific to the 70-kDa heat shock protein. Thus, two progesterone receptor-associated proteins are identical, or closely related, to heat shock proteins. When the two progesterone receptor species, A and B, were isolated separately in the absence of hormone, both were obtained in association with hsp90 and the 70-kDa protein. However, activated receptor isolated from oviduct nuclear extracts was associated with the 70-kDa protein, but not with hsp90. A hormone-dependent dissociation of hsp90 from the cytosolic form of the receptor complex was observed within the first hour of in vivo progesterone treatment, which could explain the lack of hsp90 in nuclear receptor complexes. In a cell-free system, hsp90 binding to receptor was stabilized by molybdate but disrupted by high salt. These treatments, however, did not alter the binding of the 70-kDa protein to receptor. Association of the 70-kDa protein with the receptor could be disrupted by the addition of ATP at elevated temperatures (23 degrees C). The receptor-associated 70-kDa protein is an ATP-binding protein, as demonstrated by its affinity labeling with azido[32P]ATP. These results indicate that the two receptor-associated proteins interact with the progesterone receptor by different mechanisms and that they are likely to affect the structure or function of the receptor in different ways.
Mol Cell Biol 1989 Sep
PMID:Binding of heat shock proteins to the avian progesterone receptor. 277 68

Diverse effects of steroid hormones on different tissues result from the tissue-specific regulation of target gene expression by steroid hormone receptors. These receptors belong to a family of transacting factors that regulate transcriptional activation of target genes by binding to DNA recognition sequences located in the 5'-flanking region of the target gene. In the brain, receptors for the gonadal steroid hormones estrogen (E) and progesterone (P) are present in discrete neuronal populations. These steroid hormone receptor-containing neurons mediate the effects of the gonadal steroids on a number of neural processes, including reproductive behavior. Using in situ hybridization we have found progesterone receptor (PR) mRNA-containing neurons present in specific hypothalamic nuclei and in the amygdala. E regulates PR mRNA levels in specific neuronal cell groups which express both ER and PR (in basomedial hypothalamus), but not in others (medial amygdala). The E-induced increase in P-responsive neurons in ventromedial hypothalamus can account for the permissive influence of E on P-facilitated reproductive behavior. This is the first demonstration that synthesis of a transcription factor (PR) can be related to a mammalian behavior.
Mol Endocrinol 1989 Aug
PMID:Expression and estrogen regulation of progesterone receptor mRNA in neurons of the mediobasal hypothalamus: an in situ hybridization study. 277 83

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