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)

Limited tryptic hydrolysis of the estradiol cytoplasmic receptor from calf uterus has been demonstrated to yield in a high-salt buffer a stable estradiol-binding molecule with the following characteristics: sedimentation coefficient 4.0 +/- 0.1 S; Stokes radius 3.5 +/- 0.05 nm; molecular weight 60000 (for an assumed v value of 0.73 ml g-1) and frictional ratio 1.36. Nuclear KCl extracts, prepared from uteri preincubated at 37 degrees C with labeled estradiol, were analysed by Sephadex G-200 chromatography and sucrose density gradient centrifugation. The following molecular parameters were found for the estradiol-receptor complex: sedimentation coefficient 4.4 +/- 0.1 S; Stokes radius 4.12 +/- 0.02 nm; molecular weight 77000 and frictional ratio 1.47 (v = 0.73 ml g-1). Limited tryptic proteolysis of this extract gave an estradiol-binding fragment with molecular characteristics identical to the trypsin-modified cytoplasmic receptor. In addition, mild tryptic digestion of whole labeled nuclei allowed us to solubilize almost quantitatively the nuclear [3H]estradiol in a macromolecular bound form. The molecule thus obtained showed molecular parameters very similar to the 60000-dalton trypsin fragments obtained from high-salt cytoplasmic and nuclear extracts. These molecules were undistinguishable by gel electrophoresis analysis at six different acrylamide concentrations. These results in conjunction with those derived from dissociation kinetics experiments and ligand specificity studies indicate the cytosolic protein is a functional part of the nuclear receptor. Based upon these and other studies we suggest that proteolytic cleavage of the estradiol-receptor complex, which results in the removal of the estradiol-binding sites from the nuclear recognition sites of the molecule, could play a role in the inactivation of the estradiol receptor in vivo.
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PMID:Limited proteolysis of cytoplasmic and nuclear uterine estradiol receptors yields identical estradiol-binding fragments. 18 Dec 52

The association of 17 beta-(3H)-estradiol with its pituitary cytosol receptor is described. The transformation products of this 8 S receptor complex at high salt concentration was analyzed by 5-20% linear sucrose gradients. KCl was found to reversibly convert the 8 S moiety into a 4-5 S species. The transformation by CaCl2 and trypsin was found to be irreversible. In addition, the nuclear translocation of the estrogen-receptor complex was investigated in vitro. Translocation was found to be temperature-dependent, since a 6 S nuclear receptor complex could be extracted from crude nuclei only after incubation of whole pituitaries at 37 degrees C and not at 4 degrees C incubation temperature. Similarly, a 6 S species was found upon sucrose gradient analysis of nuclear extract after a cell free incubation of isolated nuclei and cytosol with 17 beta-(3H)-estradiol. Maximal translocation was observed in this in vitro system within 60 to 90 min, resulting in a concomitant loss of cytosol receptor. The present data combine to suggest that nuclear translocation resembles one of the early events involved in the molecular action of estrogen at the pituitary level.
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PMID:Transformation and translocation of 17 beta-estradiol receptor in rat pituitary. 31 66

The nuclear Ah receptor from mouse hepatoma (Hepa-1c1c9) cells is a 176-kDa multimeric protein which is stable under conditions of up to 1 M KCl. Under denaturing conditions, the Hepa-1 nuclear receptor can be dissociated into a ligand-binding subunit of Mr approximately 91,000. The identity of subunits that compose the nuclear Ah receptor is currently unknown. We used partial proteolysis under nondenaturing conditions as an approach to study the domain organization of the nuclear form of Ah receptor from Hepa-1c1c9 cells treated with [3H]2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) in culture. Low concentrations of trypsin (0.5 microgram/mg nuclear protein) generated heterogeneous fragments with the main fragment having a Stokes radius (Rs) approximately 6 nm. More discrete ligand-binding fragments of Mr approximately 84,000 (Rs approximately 4 nm/approximately 5 S) and Mr approximately 16,000 (Rs approximately 2 nm/approximately 2 S) could be generated using higher concentrations of trypsin (5 micrograms/mg nuclear protein). The relative concentration of the 84 and 16-kDa fragment was dependent on duration of protease treatment; formation of the 16-kDa fragment was accompanied by some loss in [3H]TCDD binding. Treatment of nuclear Ah receptor with alpha-chymotrypsin (1 microgram/mg nuclear protein) generated a single, apparently homogeneous ligand-binding fragment of Mr approximately 101,000 (Rs approximately 5 nm/approximately 5 S). When analyzed by DNA-cellulose chromatography, the chymotryptic fragment eluted at a significantly higher KCl concentration (462 mM) compared to native untreated nuclear Ah receptor (385 mM). Despite this increased affinity for DNA-cellulose columns, the ligand-binding fragment generated by chymotrypsin treatment was unable to interact with a dioxin responsive element in a gel retardation assay. DNA-cellulose binding ability, therefore, does not appear to be a reliable indicator of specific DNA interactions for these protease-modified fragments.
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PMID:Nuclear Ah receptor from mouse hepatoma cells: effect of partial proteolysis on relative molecular mass and DNA-binding properties. 217 30

Using a T7 expression system, large amounts of the human placental c-erbA protein (h-TR beta 1) were expressed. From 1 liter of Escherichia coli culture, approximately 50-100 micrograms of purified h-TR beta 1 were obtained. Analysis of the binding data indicated that the purified h-TR beta 1 binds to 3,3',5-triiodo-L-thyronine (T3) with a Ka = 2.8 x 10(9) M-1. It binds to 3,3',5-triiodo-L-thyropropionic acid, 3,3',5-triiodo-L-thyroacetic acid, D-T3, L-thyroxine (T4), and 3',5',3-triiodo-L-thyronine with 475, 120, 39, 7, and 0.1%, respectively, of the activity of L-T3. This order of binding activity to T3 analogs is similar to that reported for the T3 nuclear receptor identified in tissues or cultured cells. Furthermore, the purified h-TR beta 1 binds to the T3 response element of the rat growth hormone gene. Thus, the purified h-TR beta 1 is active. To identify the hormone binding domain, the purified h-TR beta 1 was affinity labeled with underivatized [3',5'-125I]T4. A partial digestion by trypsin yielded a 125I-labeled 25-kDa fragment which was identified to be the domain Phe240-Asp456 by amino acid sequencing. Thus, the purified h-TR beta 1 appears suitable for other structural and functional studies.
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PMID:Hormone and DNA binding activity of a purified human thyroid hormone nuclear receptor expressed in Escherichia coli. 218 Sep 60

Hepatic nuclear thyroid hormone receptors from rat, dog, chicken, and rainbow trout were compared. Receptor affinities for 3,5,3'-triiodo-L-thyronine (T3) were similar in preparations from rat, dog, and chicken, using isolated nuclei and nuclear extracts. Rainbow trout nuclear receptor showed a lower affinity for T3. Almost half of the receptors were released into the medium with rat and chicken nuclei, and 79.7 +/- 1.1% of the receptors were released with rainbow trout nuclei, when isolated nuclei were incubated with T3 at 22 degrees for 2 hr. The affinity constant of rat liver receptor for calf thymus DNA-cellulose at 0.17 M KCl, pH 7.4, was 3.98 +/- 1.47 x 10(5) M-1, when determined using DNA-cellulose columns. The number of salt bridges involved in DNA binding of the rat receptor was 5.73 +/- 0.38. When receptor-DNA interactions were compared among species, significant differences were found, but the receptors from dog and rainbow trout liver were similar. Sephacryl S-200 column chromatography showed that chicken receptor had a Stokes radius significantly smaller than that of rat receptor. Partial proteolysis of T3-receptor complex using trypsin alpha-chymotrypsin, elastase, and papain produced distinct T3-binding fragments in different species. Our data provide evidence that nuclear thyroid hormone receptors from different species have significant structural dissimilarities.
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PMID:Differences in nuclear thyroid hormone receptors among species. 250 Mar 75

Extraction of rat kidney cytosol with 10% charcoal at 4 C inactivated specific T3 binding. The decreased T3 binding in extracted cytosol could be restored by addition of boiled kidney cytosol. Three different factors (a, b, and c) which could increase T3 binding were identified by Sephadex G-50 column chromatography of boiled cytosol. Two factors (b and c) were eluted as relatively small molecules. Factor a was present in small amounts. Factor c was neutralized by incubation with EDTA, but factor b was not. Factor b was not destroyed by trypsin, protease, DNase, or RNase, but was destroyed by alkaline phosphatase. Factor b was destroyed by incubation with nicotinamide adenine dinucleotide phosphate (NADPH)-dependent glutathione reductase in the presence of oxidized glutathione. Although T3 binding to charcoal-extracted cytosol protein was not influenced by reduced glutathione or dithiothreitol, it was markedly increased by NADPH. Maximal activation induced by 50 microM NADPH was not further increased by further addition of endogenous factor b. The elution position of NADPH in gel chromatography corresponded to the elution position of factor b. Factor b or NADPH increased maximal binding capacity without changes in affinity constant. These observations suggest that T3-binding protein in cytosol is present in inactive and active forms and that the active form is generated by NADPH, which is present as one of the activators in cytosol. The effect of these cytosolic T3-binding proteins on nuclear T3 binding in vitro was also studied. In the absence of cytosolic T3-binding protein, [125I]T3 binding to nuclear receptor was decreased by unlabeled T3 in a concentration-dependent manner. In the presence of inactive form of cytosolic T3-binding protein, nuclear [125I]T3 binding was slightly diminished. In the presence of NADPH and cytosolic T3-binding protein, however, the amount of [125I]T3 bound to nuclei markedly decreased, which was associated with an increase of cytosolic [125I]T3 binding. NADPH alone did not influence nuclear T3 binding. These results suggest that T3 binding to nuclear receptor is regulated by an active form of cytosolic T3-binding protein in vitro.
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PMID:Active and inactive forms of 3,5,3'-triiodo-L-thyronine (T3)-binding protein in rat kidney cytosol: possible role of nicotinamide adenine dinucleotide phosphate in activation of T3 binding. 301 55

The methodology to fully characterise nuclear receptor for oestradiol-17 beta (E2) in the ram pituitary has been investigated. Purified nuclei, clean under the electron microscope, were obtained from 2.4 M sucrose ultracentrifugation and were extracted for 2 h at 0 degrees C with 0.6 M NaCl. After centrifugation, the supernatant was incubated with [3H]E2 with or without a 100-fold excess of unlabelled E2. The main results were: the specific binding was maximum at 20 degrees C in 2-3 h and remained constant up to 19 h without significant metabolism; an incubation temperature of 25 degrees C reduces the binding, while at 0 degrees C maximum binding was attained at a much slower rate; the binding was linearly related to the dose of nuclear proteins; the binding was not affected by DNase and RNase but was suppressed by trypsin, pronase or a temperature of 56 degrees C; binding was specific for oestrogens; preincubation of cytosol with [3H]E2 and then coincubation with nuclei showed an uptake of the [3H]E2 receptor complex by nuclei; such a transfer was inhibited if cytosol was previously heated; after a prelabelled cytosol-nuclei coincubation, a specific binding peak was found in the nuclear extract submitted to sucrose gradient sedimentation (4.1S); in vivo injection of 100 micrograms E2 resulted in a sharp increase in nuclear receptor numbers 30 and 60 min later, with a concomitant drop in cytosolic receptor numbers. These results indicate that E2 can bind to pituitary nuclei in the ram.
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PMID:Oestradiol binding to nuclei of anterior pituitary cells of the ram. 400 97

We previously reported that putative nuclear receptors for thyroid hormone can be demonstrated by incubation of hormone either with intact GH(1) cells, a rat pituitary tumor cell line, or with isolated GH(1) cell nuclei and rat liver nuclei in vitro. We characterized further the kinetics of triiodothyronine (T3) and thyroxine (T4) binding and the biochemical properties of the nuclear receptor after extraction to a soluble form with 0.4 M KCl. In vitro binding of [(125)I]T3 and [(125)I]T4 with GH(1) cell and rat liver nuclear extract was examined at 0 degrees C and 37 degrees C. Equilibrium was attained within 5 min at 37 degrees C and 2 h at 0 degrees C. The binding activity from GH(1) cells was stable for at least 1 h at 37 degrees C and 10 days at - 20 degrees C. Chromatography on a weak carboxylic acid column and inactivation by trypsin and Pronase, but not by DNase or RNase, suggested that the putative receptor was a nonhistone protein. The estimated equilibrium dissociation constants (K(d)) for hormone binding to the solubilized nuclear binding activity was 1.80 x 10(-10) M (T3) and 1.20 x 10(-9) M (T4) for GH(1) cells and 1.57 x 10(-10) M (T3) and 2.0 x 10(-9) M (T4) for rat liver. These K(d) values for T3 are virtually identical to those which we previously reported with isolated rat liver nuclei and GH(1) cell nuclei in vitro. The 10-fold greater affinity for T3 compared to T4 in the nuclear extract is also identical to that observed with intact GH(1) cells. In addition, the [(125)I]T3 and [(125)I]T4 high-affinity binding in the nuclear extract were inhibited by either nonradioactive T3 or T4, which suggests that the binding activity in nuclear extract was identical for T3 and T4. In contrast, the binding activity for T4 and T3 in GH(1) cell cytosol was markedly different from that observed with nuclear extract (K(d) values were 2.87 x 10(-10) M for T4 and 1.13 x 10(-9) M for T3). Our results indicate that nuclear receptors for T3 and T4 can be isolated in a soluble and stable form with no apparent change in hormonal affinity. This should allow elucidation of the mechanisms of thyroid hormone action at the molecular level.
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PMID:Thyroid hormone action: in vitro characterization of solubilized nuclear receptors from rat liver and cultured GH1 cells. 437 51

The hormone 1alpha,25(OH)(2)-vitamin D(3) (125D) binds to its nuclear receptor (VDR) to stimulate gene transcription activity. Inversion of configuration at C-20 of the side chain to generate 20-epi-1alpha,25(OH)(2)D(3) (20E-125D) increases transcription 200-5000-fold over 125D with its 20-normal (20N) side chain. This enhancement has been attributed to the VDR ligand-binding domain (LBD) having different contact sites for 20N and 20E side chains that generate different VDR conformations. We synthesized 1alpha, 25-dihydroxy-21-(3-hydroxy-3-methylbutyl)vitamin D(3) (Gemini) with two six-carbon side chains (both 20N and 20E orientations). Energy minimization calculations indicate the Gemini side chain possesses significantly more energy minima than either 125D or 20E-125D (2346, 207, and 127 minima, respectively). We compared activities of 125D, 20E-125D, and Gemini, respectively, in several assays: binding to wild-type (100%, 147%, and 38%) and C-terminal-truncated mutant VDR; transcriptional activity (of the transfected osteopontin promoter in ROS 17/2.8 cells: ED(50) 10, 0.005, and 1.0 nM); mediation of conformational changes in VDR assessed by protease clipping (major trypsin-resistant fragment of 34, 34, and 28 kDa). For inhibition of cellular clonal growth of human leukemia (HL-60) and breast cancer (MCF7) cell lines, the ED(50)(125D)/ED(50)(Gem) was respectively 380 and 316. We conclude that while Gemini readily binds to the VDR and generates unique conformational changes, none of them is able to permit a superior gene transcription activity despite the presence of a 20E side chain.
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PMID:Characterization of a novel analogue of 1alpha,25(OH)(2)-vitamin D(3) with two side chains: interaction with its nuclear receptor and cellular actions. 1089 9

Potential pharmacological applications in the areas of oncology, dermatology, diabetes, and atherosclerosis of synthetic analogs of retinoic acid that target a specific nuclear receptor and/or biological response have generated great interest in the development of new retinoid and rexinoid drugs. The pan-retinoic acid receptor antagonist AGN 193109 has been previously reported to elevate CYP1A1 levels, implicating the aryl hydrocarbon receptor (AhR) as an additional target for this retinoid. AhR is a cytosolic ligand-dependent transcription factor that, in conjunction with the AhR nuclear translocator (Arnt), binds to dioxin response elements (DREs) located in the promoter region of target genes, such as CYP1A1, and induces their transcription. The purpose of these studies was to determine whether additional synthetic retinoids were capable of elevating CYP1A1 levels and to examine the mechanism of this increase in CYP1A. Two additional retinoids, AGN 190730 and AGN 192837, were found to be potent inducers of DRE-driven transcriptional activity; AGN 190730 was the most potent. Moreover, electrophoretic mobility-shift assays demonstrate that AGN 190730 can transform AhR into its active DNA recognition form. In addition, trypsin digestion of AGN 190730-treated AhR reveals a conformational change in the protein similar to the conformational change of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)-bound AhR. Finally, competitive binding studies demonstrate that AGN 190730 can inhibit the binding of TCDD to AhR. The sum of the data demonstrates that some synthetic retinoids in addition to activating the retinoic acid receptor/retinoid X receptor pathway are capable of binding to AhR and activating the AhR/Arnt pathway.
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PMID:Unique property of some synthetic retinoids: activation of the aryl hydrocarbon receptor pathway. 1180 58


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