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 present study was designed to determine the characteristics of the progesterone receptor and chromatin binding site ("acceptor") of the progesterone-receptor complex in the rabbit uterus. The uterus was obtained from an estrogen-primed immature female rabbit. The binding of progesterone to the uterine receptor was examined in vitro. The progesterone-receptor binding was reduced only by proteases, and phosphorus moiety may not be related for progesterone-receptor binding. The effects of enzymes on the acceptor of the chromatin were investigated. The progesterone-receptor complex was bound to the dehistonized chromatin. The dehistonized chromatins, which were pretreated with enzymes at 4 degrees C or 37 degrees C for 30 minutes, were incubated with 3H-progesterone prelabeled uterine cytosol at 4 degrees C for 30 minutes, and the radioactivity in the chromatin pellet was counted. Proteases effectively decreased the receptor binding capacity to the dehistonized chromatin in the following order: pronase greater than trypsin greater than papain greater alpha-chymotrypsin. DNAse moderately and phospholipase A slightly decreased its binding capacity. The results may indicate that the acceptor site of the progesterone receptor is nonhistone protein over DNA of chromatin and may contain phosphorus moiety.
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PMID:[The effect of enzymes on progesterone-receptor binding and chromatin binding of the complex in the estrogen-primed rabbit uterus (author's transl)]. 72 Jun 96

Phosphorylation of immunopurified chicken oviduct progesterone receptor (PR) was studied in intact cells and under cell-free conditions. Cytosol PR was isolated by incubation with anti-PR monoclonal antibody alpha PR22 adsorbed to protein A-Sepharose and suspended in a reaction mixture containing 10 mM Mg2+, 0.1 mM [gamma-32P]ATP, and the catalytic subunit of cAMP-dependent protein kinase (cAMP-PK) from bovine heart. All three major proteins of avian PR (PR-A, 79 kDa; PR-B, 110 kDa; 90 kDa) incorporated 32P-radioactivity on serine residues. The phosphorylation reaction was inhibited by synthetic inhibitors of protein kinases, H-8 and 20-residue peptide IP20. A 40 degrees C preexposure of PR oligomer increased phosphorylation of the 90-kDa protein, known to be a heat-shock protein (hsp-90). The extent of the phosphorylation reaction was temperature-dependent as the 32P-incorporation into PR-A and PR-B increased gradually, showing a maximum at 37 degrees C. Multiple phosphopeptides (4-7) were resolved by two-dimensional electrophoresis chromatography following cleavage of 32P-labeled peptides with trypsin. Both A and B forms of receptor showed similar phosphorylation patterns with B receptor digestion exhibiting two to three additional peptides. Under physiological conditions, preincubation of oviduct mince with forskolin, a regulator of intracellular cAMP levels, caused a greater extent of phosphorylation of PR-A and PR-B proteins. The results of this study demonstrate that chicken oviduct PR is an excellent substrate for the action of cAMP-PK in vitro and that this enzyme may be a physiological regulator of progesterone action in the oviduct.
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PMID:Phosphorylation of chicken oviduct progesterone receptor by cAMP-dependent protein kinase. 141 66

The susceptibility of the progesterone receptor, liganded either by the antiprogestin RU 486 or by the progestin ORG 2058, to chymotrypsin and trypsin degradation was investigated. The nuclear fraction was isolated from T47D cells previously exposed either to 0.1 microM [3H]RU 486 or to 0.1 microM [3H]ORG 2058. The proteolytic digestion was performed on the micrococcal nuclease hydrolysate. The molecular weights of the receptor fragments were calculated, in high salt buffer, from the sedimentation coefficients determined on a sucrose gradient and from the Stokes radii estimated by gel filtration on an Agarose A-0.5 m column. Micrococcal nuclease solubilized receptor forms with molecular weights of 80,000 and 75,000 for the antiprogestin- or progestin-liganded receptor, respectively. Chymotrypsin degraded these receptor forms to fragments with molecular weights of 23,000 either for the antiprogestin- or progestin-liganded receptor. Similar molecular weights of 23,000 were calculated for the progesterone receptor liganded either by the antiprogestin RU 436 or the progestin ORG 2058 following trypsin cleavage. We conclude that the degradation pattern of the progesterone receptor liganded either by the antiprogestin RU 486 or the progestin ORG 2058 following chymotrypsin or trypsin digestion seems to be similar.
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PMID:Comparison of the physical properties of the nuclear progesterone receptor, bound to antiprogestin RU 486 or progestin ORG 2058, following limited proteolysis. 238 53

A monoclonal antibody described previously by us (Edwards, D. P., Weigel, N. L., Schrader, W. T., O'Malley, B. W., and McGuire, W. L. (1984) Biochemistry 23, 4427-4435) was used to study progesterone receptor B subunits of chick and hen oviduct. We find that the antibody does not recognize the form of receptor B able to bind [3H]progesterone in vitro. Rather, it reacts exclusively with a homologous protein of the same molecular weight, termed B antigen. The antigen is present in both immature estrogen-treated chicks and in egg-laying hens. This antigen is indistinguishable from the hormone-binding receptor species (termed receptor B) as shown by peptide mapping techniques using either Staphylococcus aureus V8 protease or trypsin. The B antigen and the hormone binder can be resolved by ion-exchange chromatography. Sedimentation velocity data show that the two proteins are present in distinct, separable cytosolic entities. The functional relationship between the two proteins has not been established.
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PMID:Immunologic detection of a protein homologous to chicken progesterone receptor B subunit. 240 88

The existence of putative metal binding sites on the estradiol receptor (ER) molecule from calf uterus was evaluated by immobilizing various divalent metals to iminodiacetate-Sepharose. ER from both crude and highly purified preparations binds to metal-containing adsorbents complexed with Zn(II), Ni(II), Co(II), and Cu(II), but not to those complexed with Fe(II) and Cd(II). Elution of ER was obtained by chelating agents or by imidazole, thus indicating that histidine residues on the ER molecule are involved in the interaction with the metal. Analysis of affinity-labeled ER by [3H]tamoxifen aziridine after elution from a column of Zn(II)-charged iminodiacetate-Sepharose showed that ER fragments obtained by extensive trypsinization were also bound. Zn(II) and the same other metals able to bind ER, when immobilized on resins, inhibit the binding of estradiol to the receptor at micromolar concentrations. This inhibition is noncompetitive and can be reversed by EDTA. The inhibition of the hormone binding was still present after trypsin treatment of the cytosol, and it was abolished by preincubation with the hormone. Micromolar concentrations of these metals were able to block those chemical-physical changes occurring during the process of ER transformation in vitro. Furthermore, if added to pretransformed ER-hormone complex, they strongly inhibited the binding of the complex to isolated nuclei. The presence of metal binding sites that modulate the ER activity in the hormone binding domain of ER is therefore speculated. Since progesterone receptor showed the same pattern of binding and elution from metal-containing adsorbents, the presence of metal binding regulatory sites could be a property of all steroid receptors.
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PMID:Metal binding sites of the estradiol receptor from calf uterus and their possible role in the regulation of receptor function. 270 44

Progesterone receptors are phosphoproteins, in which phosphorylation has been proposed as a control mechanism for some stages of hormone action. Progesterone administration was shown to increase phosphorylation of the receptor from both cytosol and nuclear extracts of whole cells. We have analyzed the receptor phosphopeptides generated by chemical and proteolytic cleavage to assess the number of phosphorylation sites and their approximate location in the receptor. Progesterone receptor was labeled in situ in the presence or absence of hormone in medium containing [32P] orthophosphate, isolated by immunoprecipitation, and then digested with several proteases. The resulting 32P-labeled peptides were resolved by either two-dimensional electrophoresis:chromatography or by reverse-phase high performance liquid chromatography. Multiple phosphopeptides (3-6) were detected after cleavage with trypsin, chymotrypsin, or V8 protease. Major increases in phosphorylation occurred at existing sites since after hormone treatment no new phosphopeptides were found. Individual phosphopeptides showed variable increases in phosphorylation of 1.5-5-fold. The A and B receptor forms showed identical phosphorylation patterns, indicating similar processing in vivo. The phosphopeptide pattern for receptor in nuclear extracts resembled that of cytosol receptor. Chemical cleavage was used to assess the distribution of phosphorylation sites. Cyanogen bromide produced a large 40-kDa polypeptide which contained all of the phosphorylation sites and comprised the residues 129-449. Hydroxylamine was used to cleave a unique bond, Asn-372-Gly-373, in the 40-kDa polypeptide. All of the phosphorylation sites were located on the amino-terminal side of the cleavage. Thus, all of the phosphorylation sites were localized to a specific region (Met-129 to Asn-372) of the progesterone receptor that does not include either the DNA or steroid binding domains.
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PMID:Hormone-dependent phosphorylation of the avian progesterone receptor. 317 May 62

Previous purifications of the progesterone receptor have yielded inadequate amounts of pure protein along with significant amounts of a nonreceptor contaminant. We have taken advantage of the high yield provided by an affinity chromatography method for partial purification and after the incorporation of additional steps, we obtained purified progesterone receptor devoid of detectable contaminants and suitable for chemical analysis. A polyclonal antibody was obtained using the pure receptor as the antigen. The antibody was specific for progesterone-binding receptor. Tissue distribution of cross-reacting material, analyzed by immunoblotting, confirmed the presence of the receptor protein only in the two tissues where progesterone binding has been described in the chick: the oviduct and the bursa of Fabricius. It was absent in receptor-negative tissues such as liver and lung. The receptor was cleaved with cyanogen bromide and trypsin to obtain fragments that were partially sequenced.
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PMID:Chemical and antigenic properties of pure 108,000 molecular weight chick progesterone receptor. 345 92

A very high capacity immunoaffinity matrix for the purification of progesterone receptor was prepared by cross-linking a monoclonal antireceptor antibody to protein A-Sepharose through the Fc fragment. The monoclonal antibody was selected for its property of losing affinity for the receptor at pH 10.5, i.e., in conditions where the receptor remains stable for extensive periods of time. This made it possible to elute active receptor form the immunosorbent. From crude rabbit uterine cytosol the steroid-receptor complexes were purified in a single step. A 1-mL column (containing 7 mg of monoclonal antibody) bound 1600 pmol of steroid-receptor complexes of which 79.5% were eluted. The overall yield of purification was 49%. The specific activity of the purified steroid-receptor complexes was 6.71 +/- 0.79 nmol of bound steroid/mg of protein (mean +/- SE of four experiments). The purified receptor consisted of a mixture of 110 000- and 79 000-dalton forms. The latter appeared to be produced by proteolysis of the larger form during purification since immunoblot experiments showed that, at the start of purification, the 110 000-dalton form was present in overwhelming majority (80-95%) in the uterine cytosol and that the 79 000-dalton form only appeared during purification. This conclusion was also supported by the peptide analysis of both forms of receptor: the purified receptor was denatured and labeled with 125I; the 110 000- and 79 000-dalton forms were isolated by gel electrophoresis in denaturing conditions and electroelution and were then submitted to mild or extensive digestions by trypsin, chymotrypsin, and protease V8 from Staphylococcus aureus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:One-step immunoaffinity purification of active progesterone receptor. Further evidence in favor of the existence of a single steroid binding subunit. 403 5

The effects of ionizing irradiation on the sedimentation coefficients of both estrogen receptor (ER) and progesterone receptor (PgR) have been examined in comparison to the effects of proteolysis. DMBA-induced rat mammary tumors were subjected to a treatment of 20 Gy and the ER and PgR concentrations were determined at different time intervals after irradiation. On a 5-20% sucrose gradient the ER sedimented as 9-11 and 4-5 S molecular forms, while PgR sedimented as a small 8-9 S peak and a major 4-5 S peak. Radiotherapy particularly reduced the 4-5 S sedimentation peaks of both receptors but did not initiate any new sedimentation forms. Although the 4-5 S ER receptor concentrations remained low, both progesterone receptor forms appeared to recover by 60 days after treatment. As these effects could be due to the release of proteolytic enzymes following irradiation of tumors, the receptors from untreated tumors were exposed to different concentrations of trypsin. The effects of trypsin were identical for ER and for PgR, and proved to be dependent on the trypsin concentration. Only concentrations of trypsin up to 30 micrograms/ml resulted in a reduction of 9-11 S ER or 8-9 S PgR forms which was accompanied by a simultaneous increase in the 4-5 S peaks, resulting in no change in total binding sites. Still higher trypsinization (300-3000 micrograms/ml) also reduced the 4-5 S ER and PgR fractions. In the presence or the absence of sodium molybdate, a stabilizer of the faster sedimenting forms of the receptor, no alterations were observed in the position of, or the total number of binding sites of, the sucrose gradient fractions from control or irradiated tumors. The irradiation effects appear to be due either to damage of the cytosolic ER receptor, thereby preventing its participation in the induction of de novo synthesis of ER and PgR, or to the non-specific damage of transcription and/or translation systems.
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PMID:The effects of ionizing irradiation on the sedimentation coefficient of cytoplasmic steroid receptors in rat mammary tumors. 641 77

Photoactivation of the alpha,beta-unsaturated ketones of natural and synthetic steroid molecules by light of lambda greater than or equal to 330 nm allows their covalent attachment to steroid-binding proteins. The general validity of this method is demonstrated with two steroid hormone receptors and the steroid-binding protein uteroglobin. Progesterone can be covalently attached to the partially purified progesterone receptor and to uteroglobin, and comigrates with the binding proteins upon electrophoresis in polyacrylamide gels containing sodium dodecyl sulfate. Similarly the synthetic glucocorticoid triamcinolone acetonide can be covalently bound to the partially purified glucocorticoid of rat liver. This method allows the identification of steroid hormone receptors after electrophoresis in polyacrylamide gels containing sodium dodecyl sulfate. Labeling with radioactive steroids is specific since it can be prevented by the addition of an excess of non-radioactive ligand. Digestion of the labeled binding proteins with trypsin or chymotrypsin yields a defined pattern of radioactive peptides, demonstrating that covalent attachment takes place at specific binding sites.
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PMID:Photoaffinity labeling of steroid binding proteins with unmodified ligands. 734 Dec 37


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