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: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The estrogen receptor (ER) is a ligand-activated transcription factor that binds to specific DNA sequences, estrogen response elements (EREs). Estradiol-liganded ER (E2-ER) binds cooperatively to stereoaligned EREs that are surrounded by naturally-occurring AT-rich sequences with a stoichiometry of one E2-ER dimer per ERE. When ER is bound by 4-hydroxytamoxifen (4-OHT), the active metabolite of the widely used therapeutic antiestrogen tamoxifen (TAM), the receptor binds to EREs with high affinity. However, one molecule of 4-OHT ligand dissociates from the ER dimer apparently during the process of binding to DNA, yielding a stoichiometry of one [3H]4-OHT molecule per ERE. To determine whether DNA-binding induced ligand dissociation is a general property of type I antiestrogens that are not covalently attached to the ER, we examined the interaction of ER liganded by tamoxifen (TAM) with EREs. We demonstrate that TAM-ER binds EREs with lower affinity than E2-ER, 4-OHT-ER, or ER liganded by the covalent antiestrogen tamoxifen aziridine. Unlike E2-ER, both TAM and 4-OHT-ER bind EREs non-cooperatively. Like 4-OHT, TAM appears to dissociate from the liganded ER as the receptor binds EREs. Additionally, partial proteolysis of ERE-bound ER by trypsin revealed different cleavage patterns for E2 versus 4-OHT and TAM. These findings indicate that the behavior of the ER liganded by TAM is generally similar to that of the antiestrogen 4-OHT.
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PMID:Comparison of tamoxifen ligands on estrogen receptor interaction with estrogen response elements. 980 52

Estrogens exert fast non-genomic actions in their target tissues which may involve the participation of receptors located at the cell membrane. Studies were performed to identify and characterize membrane-associated 17beta-estradiol binding proteins in rabbit uterus. Specific and saturable [3H]17beta-estradiol binding sites of high affinity (Kd = 0.36 nM) were detected in uterine microsomes at higher concentration than in cytosol (370 +/- 98 vs. 270 +/- 87 fmol/mg protein, respectively). Various other steroid hormones, the stereoisomer 17alpha-estradiol and the antiestrogen tamoxifen were significantly less effective than 17beta-estradiol to compete with the radioactive ligand for binding to the membranes. The microsome binding sites were trypsin-sensitive and could be extracted to a great extent (80-90%) with 0.4/0.6 M KCl. Assays of the marker enzyme glucose-6-P dehydrogenase excluded membrane contamination with cytosolic soluble components. Immunoblot analysis of particulate and soluble fractions using monoclonal antibodies against the transactivation, heat shock protein recognition, and steroid binding domains of the nuclear estrogen receptor (ER; 67 kDa), revealed lower concentrations of the ER in membranes and the presence of five additional immunoreactive proteins of 57, 50, 32, 28, and 11 kDa which were absent in cytosol. Moreover, the antibody against the steroid binding domain was as effective as an inhibitor for cytosolic and membrane specific radioligand binding. Extraction of microsomes with the nondenaturing detergent CHAPS allowed a 2-fold enrichment of ER-like binding proteins as shown by antibody labeling and [3H]17beta-estradiol binding analysis. The results of this work are consistent with the existence of novel 17beta-estradiol membrane binding proteins structurally related to the intracellular ER. Future studies should investigate whether any of these proteins are involved in the primary events (e.g. receptor function) mediating nongenomic estrogen effects.
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PMID:Characterization of membrane estrogen binding proteins from rabbit uterus. 1019 94

Steroid-induced changes in receptor protein conformation constitute a logical means of translating the variations in steroid structures into the observed array of whole cell biological activities. One conformational change in the rat glucocorticoid receptor (GR) can be readily discerned by following the ability of trypsin digestion to afford a 16-kDa fragment. This fragment is seen after proteolysis of steroid-free receptors but disappears in digests of either glucocorticoid- or antiglucocorticoid-bound receptors. The location of this cleavage site has now been located unambiguously as R651, in helix 6 of the ligand binding domain, by a combination of point mutagenesis, arginine specific protease digestion, and radiochemical sequencing. This 16-kDa species, corresponding to amino acids 652-795, was non-covalently associated with another, approximately 17-kDa species that was determined to be amino acids 518-651 after a comparison of co-immunoprecipitated fragments from wild type and two chimeric receptors. These assignments revise our earlier report of amino acids 537-673 being the 16-kDa fragment and suggest that sequences of the entire ligand binding domain are required for high affinity and specificity binding. This was supported by the observation that trypsin digestion of the steroid-free R651A mutant GR gave rise to the 30-kDa meroreceptor (amino acids 518-795), which displayed wild type affinity. This 30-kDa species is thus the smallest non-associated fragment of GR possessing wild type steroid binding affinity. This suggests that other GR regions do not influence steroid binding affinity. The above results are reminiscent of those observed for the estrogen receptor. However, unlike the estrogen receptor or the more closely related progesterone receptor, the precise proteolytic cleavage points of both the steroid-free and -bound GR fall within regions that are predicted, on the basis of X-ray crystal structures of related receptors, to be alpha-helical and resistant to proteolysis. Thus, the tertiary structure of the GR ligand binding domain may be distinctly different from that of estrogen and progesterone receptors.
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PMID:Steroid-induced conformational changes of rat glucocorticoid receptor cause altered trypsin cleavage of the putative helix 6 in the ligand binding domain. 1058 Aug 42

We have previously reported the identification of seven in vivo phosphorylation sites in the amino-terminal region of the human progesterone receptor (PR). From our previous in vivo studies, it was evident that several phosphopeptides remained unidentified. In particular, we wished to determine whether human PR contains a phosphorylation site in the hinge region, as do other steroid receptors including chicken PR, human androgen receptor, and mouse estrogen receptor. Previously, problematic trypsin cleavage sites hampered our ability to detect phosphorylation sites in large incomplete tryptic peptides. Using a combination of mass spectrometry and in vitro phosphorylation, we have identified six previously unidentified phosphorylation sites in human PR. Using nanoelectrospray ionization mass spectrometry, we have identified two new in vivo phosphorylation sites, Ser(20) and Ser(676), in baculovirus-expressed human PR. Ser(676) is analogous to the hinge site identified in other steroid receptors. Additionally, precursor ion scans identified another phosphopeptide that contains Ser(130)-Pro(131), a likely candidate for phosphorylation. In vitro phosphorylation of PR with Cdk2 has revealed five additional in vitro Cdk2 phosphorylation sites: Ser(25), Ser(213), Thr(430), Ser(554), and Ser(676). At least two of these, Ser(213) and Ser(676), are authentic in vivo sites. We confirmed the presence of the Cdk2-phosphorylated peptide containing Ser(213) in PR from in vivo labeled T47D cells, indicating that this is an in vivo site. Our combined studies indicate that most, if not all, of the Ser-Pro motifs in human PR are sites for phosphorylation. Taken together, these data indicate that the phosphorylation of PR is highly complex, with at least 14 phosphorylation sites.
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PMID:Identification of a phosphorylation site in the hinge region of the human progesterone receptor and additional amino-terminal phosphorylation sites. 1111 Aug 1

The estrogen receptor mediates breast cell proliferation and is the principal target for chemotherapy of breast carcinoma. Previous studies have demonstrated that the estrogen receptor binds to calmodulin-Sepharose in vitro. However, the association of endogenous calmodulin with endogenous estrogen receptors in intact cells has not been reported, and the function of the interaction is obscure. Here we demonstrate by co-immunoprecipitation from MCF-7 human breast epithelial cells that endogenous estrogen receptors bind to endogenous calmodulin. Estradiol treatment of the cells had no significant effect on the interaction. However, incubation of the cells with tamoxifen enhanced by 5-10-fold the association of calmodulin with the estrogen receptor and increased the total cellular content of estrogen receptors by 1.5-2-fold. In contrast, the structurally distinct calmodulin antagonists trifluoperazine and CGS9343B attenuated the interaction between calmodulin and the estrogen receptor and dramatically reduced the number of estrogen receptors in the cell. Neither of these agents altered the amount of estrogen receptor mRNA, suggesting that calmodulin stabilizes the protein. This hypothesis is supported by the observation that, in the presence of Ca2+, calmodulin protected estrogen receptors from in vitro proteolysis by trypsin. Furthermore, overexpression of wild type calmodulin, but not a mutant calmodulin incapable of binding Ca2+, increased the concentration of estrogen receptors in MCF-7 cells, whereas transient expression of a calmodulin inhibitor peptide reduced the estrogen receptor concentration. These data demonstrate that calmodulin binds to the estrogen receptor in intact cells in a Ca2+-dependent, but estradiol-independent, manner, thereby modulating the stability and the steady state level of estrogen receptors.
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PMID:Calmodulin enhances the stability of the estrogen receptor. 1127 48

One of the potential therapeutic interventions to hormone-independent breast cancer would be to reactivate the expression of estrogen receptor or progesterone receptor (PR) in the tumor cells so as to render the tumor responsive to the hormones. We have reported previously that progesterone markedly inhibited cell growth and induced remarkable focal adhesions in PR-transfected MDA-MB-231 cells. The aim of this study was to determine the effects of progesterone on the invasive properties and in vivo tumor growth of PR-transfected MDA-MB-231 cells. It was found that progesterone has increased cell resistance to trypsin digestion and increased cell attachment to extracellular matrix proteins, especially laminin and fibronectin. In vitro invasion assays using modified Boyden chambers showed that progesterone increased cell migration through matrix protein-coated membranes. However, Northern blotting analysis demonstrated that progesterone strongly down-regulated (up to 60-fold) the gene expression of urokinase plasminogen activator and increased (up to 5-fold) the expression of tissue-type plasminogen activator in these cells. This pattern of gene regulation suggested an inhibition of cell invasiveness because numerous clinical studies have indicated that low levels of urokinase plasminogen activator and high levels of tissue-type plasminogen activator in breast cancer are associated with favorable prognosis. Furthermore, animal studies showed that progesterone strongly inhibited the tumor formation and growth in Scid mice. After 12 weeks of inoculation, the median weight of tumors in the progesterone-treated group was 25 mg compared with 203 mg in the placebo group (P < 0.001). These results suggest that progesterone may provide effective treatment for estrogen receptor- and PR-negative breast cancer if the PR expression were reactivated. Alternatively, activation of progesterone-mediated molecular pathways in hormone-independent breast cancer may achieve similar therapeutic effects.
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PMID:Effect of progesterone on the invasive properties and tumor growth of progesterone receptor-transfected breast cancer cells MDA-MB-231. 1155 6

Genes whose expression is highly induced by estradiol (E(2)) contain multiple estrogen response elements (EREs) in their promoters. Previously we reported that estrogen receptor-alpha (ERalpha) binds cooperatively to and E(2) synergistically activates reporter gene expression from three or four tandem copies of a consensus ERE (EREc38). Here we evaluated how ERalpha binding to one, two, three or four tandem copies of EREc38 affects ERalpha conformation as detected by altered ERalpha trypsin digestion patterns in Western blots. E(2)- or 4hydroxytamoxifen (4-OHT)-occupied ERalpha bound to the pS2 ERE or to a single copy of EREc38 showed enhanced susceptibility to trypsin digestion compared to E(2)- or 4-OHT-ERalpha incubated with DNA lacking an ERE. ERalpha binding to multiple tandem copies of EREc38 further increased sensitivity to trypsin digestion. These results correlate with synergistic transcription and cooperativity of ERalpha binding to multiple tandem copies of EREc38. These observations suggest that EREc38 binding alters the overall conformation of ERalpha and that multiple tandem copies of EREc38 enhance these conformational changes. We hypothesize that ERE-induced alterations in ERalpha conformation modulate interaction with coregulatory proteins, resulting in synergistic transcriptional activation.
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PMID:Estrogen response element binding induces alterations in estrogen receptor-alpha conformation as revealed by susceptibility to partial proteolysis. 1171 81

The estrogen receptor-related receptor gamma (ERR gamma/ERR3/NR3B3) is the newest member of the ERR subfamily that also includes ERR alpha and ERR beta. All three isoforms share a high degree of amino acid identity especially in the DNA binding domain. ERR gamma is a constitutively active transcriptional activator that regulates reporter elements driven by steroidogenic factor 1 response element (SF-1RE) and estrogen response element. However, it has the highest potency on a derivative of SF-1RE present in the small heterodimer partner gene promoter called sft4 and unlike ERR alpha and -beta, it fails to activate a palindromic thyroid hormone response element. To investigate the mechanism behind this response element-specific differential transcriptional activity of ERR gamma, the interactions of ERR gamma and the aforementioned response elements was monitored. EMSA and chromatin immunoprecipitation assays demonstrated that ERR gamma binds to sft4, SF-1RE, and palindromic thyroid hormone response element albeit with different degrees of affinity, but causes hyperacetylation of sft4 and SF-1RE templates only. Limited proteolysis assays showed that ERR gamma, bound to different elements, shows differential trypsin sensitivity. A search for novel coregulators of ERR gamma led to the identification of receptor interacting protein 140 as a potent corepressor and peroxisome proliferator-activated receptor gamma coactivator 1 as a potent coactivator of ERR gamma. DNA-dependent pull-down and transient transfection assays demonstrated that, on different DNA elements, ERR gamma exhibits differential cofactor interactions, which in turn dictate its transcriptional activity. Because ERR gamma shows a similar tissue distribution as peroxisome proliferator-activated receptor gamma coactivator 1 and receptor interacting protein 140, these two coregulators may act as key components of ERR gamma-mediated transcription.
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PMID:Deoxyribonucleic acid response element-dependent regulation of transcription by orphan nuclear receptor estrogen receptor-related receptor gamma. 1464 97

We report a woman with ascites, hydrothorax, pancreatic tumor, left cystic ovarian tumor, and an elevated serum cancer antigen 125 level. Exploratory laparotomy was performed to determine peritoneal disseminated carcinoma of unknown origin. Immunohistochemical analysis demonstrated positive staining for carcinoembryonic antigen, trypsin, and progesterone receptor and nonspecific or negative reaction for calretinin, estrogen receptor, amylase, lipase, Wilms tumor gene 1 protein, and inhibin or chromogranin A. These results together with the morphology of tubular structure suggested the pathological diagnosis of adenocarcinoma with pancreatic characteristics and contradicted ovarian cancer or mesothelioma. Immunohistochemistry is an adjunct tool to differentiate the primary site of carcinomatous peritonitis.
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PMID:Immunohistochemistry for the differentiation of peritoneal disseminated carcinoma of unknown origin. 1520 56

Structural and molecular studies have shown that the vitamin D receptor (VDR) mediates 1alpha,25(OH)2-vitamin D3 gene transactivation. Recent evidence indicates that both VDR and the estrogen receptor are localized to plasma membrane caveolae and are required for initiation of nongenomic (NG) responses. Computer docking of the NG-specific 1alpha,25(OH)2-lumisterol to the VDR resulted in identification of an alternative ligand-binding pocket that partially overlaps the genomic pocket described in the experimentally determined x-ray structure. Data obtained from docking five different vitamin D sterols in the genomic and alternative pockets were used to generate a receptor conformational ensemble model, providing an explanation for how VDR and possibly the estrogen receptor can have genomic and NG functionality. The VDR model is compatible with the following: (i) NG chloride channel agonism and antagonism; (ii) variable ligand-stabilized trypsin digest banding patterns; and (iii) differential transcriptional activity, employing different VDR point mutants and 1alpha,25(OH)2-vitamin D3 analogs.
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PMID:Identification of an alternative ligand-binding pocket in the nuclear vitamin D receptor and its functional importance in 1alpha,25(OH)2-vitamin D3 signaling. 1532 91


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