EC:3.4.21.4 - FACTA Search

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)

Two acid proteases, one hydrolysing hemoglobin and the other hydrolysing benzoyl arginine naphthyamide (BANA), were separated and partially purified from human skin buffer extract. The acid protease hydrolysing hemoglobin was purified about 190 fold by Sephadex G-100 gel filtration and DEAE-cellulose chromatography. It hydrolysed hemoglobin at pH 3.5, casein at pH 5.8 and skin protein substrate at pH 6.0. It did not markedly hydrolyse synthetic protease substrates. The molecular size of this protease was 38000. The protease was insensitive to common protease modifiers and closely resembles cathepsin D purified from other organs. The BANA-hydrolysing acid protease was purified about 760 fold by Sephadex G-100 gel filtration and affinity chromatography on organomercurial Sepharose 4B gel. It preferentially hydrolysed BAEE, BANA and BAA with an optimum at pH 5.8. The hydrolysis of BAPA, LeuNA and protein substrates was very low. This acid protease was found to be highly dependent on reducing agents, as DTT, and chelating agents, as EDTA, and was inhibited by pCMB and TLCK. The molecular size of the enzyme was 28000. This protease closely resembles cathepsin B1 purified from other organs. Human skin was also shown to contain a low activity of benzoyl arginine amide (BAA) hydrolysing acid protease with a molecular size of about 50000 and resembling cathepsin B2. Human skin contained an inhibitor with a molecular size of about 13000 against human skin cathepsin B1. This inhibitor did not inhibit trypsin, chymotrypsin or skin proteases other than cathepsin B1.
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PMID:Human skin proteases. Separation and characterization of two acid proteases resembling cathepsin B1 and cathepsin D and of an inhibitor of cathepsin B1. 0 17

Partially purified calf brain uridine kinase precipitated by bivalent metal cations has been compared with the soluble enzyme fraction regarding its stability in the presence of inactivating factors. The freeze-dried preparations of uridine kinase precipitaated by Pb2+ or Zn2+ ions, althouth enzymatically highly active, are insoluble in aqueous solutions. The activity of metal-insolubilized enzymes disappears during their preincubation in acidic media or in the presence of silver ions. Also trypsin, chymotrypsin and cathepsin B1 caused decreases in enzyme activity. However, fractions which have been precipitated by metal ions and freeze-dried are stable at high temperatures, whereas the activity of soluble uridine kinase is completely lost. Both unheated metal-ion precipitated uridine kinase preparations and those heated at 100 degrees C are equally sensitive to the feedback inhibition by CTP.
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PMID:Stability of the insoluble form of uridine kinase coupled to zn2+ or pb2+ ions. 0 66

Psoriatic scale proteases were found to be extracted effectively in salt solution (1 mol/l) containing Triton X-100 (5 g/l). The extraction in dilute buffer or sucrose yielded low activities. The acid (0.25 N H2SO4) and KSCN (2 mol/l) solutions effectively extracted plasminogen activator. Fibrinolysin was most active in salt (1 mol/l KCl) and in KSCN (2 mol/l) extracts. Psoriatic scale proteases were fractionated by Sephadex G-100 gel filtration and further by DEAE cellulose chromatography. Five different enzyme preparations were obtained. The first preparation, resembling cathepsin D, effectively hydrolysed hemoglobin at pH 3.5 and casein at pH 5.8 and was insensitive to protease modifiers. The second preparation effectively hydrolysed trypsin substrates (AGLME, TAME, BAEE and BANA) and also histone and casein at pH 7.2 and was inhibited by protease inhibitors, TLCK and E-600. The third preparation hydrolysed histone and casein at pH 10.2 and was effectively inhibited by E-600 and partially by protease inhibitors and TPCK. The fourth preparation, resembling cathepsin B1, hydrolysed BANA and BAEE at pH 5.8 and was activated by SH-reagents and EDTA. The fifth enzyme preparation hydrolysed ATEE and was inhibited by E-600 and TPCK. Plasminogen activator was found mainly in the second enzyme preparation and fibrinolysin activity in the third and fifth enzyme preparations. The second, third and fifth enzyme preparations were different from the enzymes found in healthy human skin. The proteases of psoriatic scale resemble those of tissue and cell cultures undergoing rapid cell division. The possible role of proteases in the increased cell division in psoriasis plaque is discussed.
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PMID:Human skin proteases. Fractionation of psoriasis scale proteases and separation of a plasminogen activator and a histone hydrolysing protease. 0 31

The effect of human skin proteases on vascular permeability and leukocyte emigration in rabbit skin was investigated. The alkaline protease of human skin capable of hydrolysing trypsin substrate effectively increased vascular permeability. This effect was not inhibited by antihistamine, but almost totally so by Trasylol. The reaction was protracted. Leukocyte emigration in skin, primarily of PMN-cells at 12 hrs, and later a migration of mononuclear cells, also resulted. Swelling of the dermal fibres was noted. The alkaline protease of human skin capable of hydrolysing chymotrypsin substrate also increased vascular permeability, but this phenomenon was effectively inhibited by antihistamine and the reaction was of brief duration. The leukocyte emigration caused by this enzyme was remarkable. The acid proteases of human skin resembling cathepsin B1 and D also caused brief increased vascular permeability, which was effectively inhibited by antihistamine. The cellular reactions to these acid proteases were mild. The role of protease inhibitors in skin in the enzyme reactions is discussed.
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PMID:Human skin proteases: effect of separated proteases on vascular permeability and leukocyte emigration in skin. 7 4

The activity of cyclic AMP phosphodiesterase (3':5'-cyclic-nucleotide 5'-nucleotidohydrolase, EC 3.1.4.17) in 105 000 X g supernatant fraction from frozen-thawed rat liver was 2.5 times higher than the corresponding preparation from fresh liver. This increased activity of frozen liver enzyme was accompanied by a decreased sensitivity of the enzyme to known activators such as alpha-tocopheryl phosphate and trypsin. Neither membrane-bound cyclic AMP phosphodiesterase, nor supernatant cyclic GMP phosphodiesterase increased in frozen liver preparation. It is unlikely that the activator protein of phosphodiesterase participated in the observed change of enzyme activity. Among rat tissues so far tested, the increased level of cyclic AMP phosphodiesterase was noted only in tissues rich in lysosome content. In the recombination experiment where phosphodiesterase from fresh liver was incubated with lysosomal fraction, stimulation of the enzyme activity was observed with a concomitant loss of sensitivity to above-mentioned activators. Since the stimulation by lysosomal fraction was effectively inhibited by cathepsin B1 inhibitors, leupeptin and antipain, it was deduced cathepsin-B1 (EC 3.4.12.3) type protease(s) was the main causative of activating the cyclic AMP phosphodiesterase. The freezing-thawing process of rat liver made the lysosomal membrane more permeable, and hence lysosomal proteases were released into soluble fraction during phosphodiesterase preparation. These results provide a warning not to use frozen liver for phosphodiesterase preparation, otherwise altered properties of the enzymes will be seen.
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PMID:Increased activity of cyclic AMP phosphodiesterase from frozen-thawed rat liver. A role of lysosomal protease in enzyme activation. 20 22

1. An activator of leucocyte latent collagenase has been extracted from rheumatoid synovial fluid by a preparative method consisting of six steps including precipitation by ammonium sulphate and chromatography on Sephadex G-100, QAE-Sephadex and SP-Sephadex C-50. The purification factor was nearly 1000 and the activator isolated could be shown to have a high degree of homogeneity.--2. Gel chromatography indicated a molecular weight of ca. 60 000.--3. Kinetic studies of the activation and inactivation of the activator during incubation at higher temperatures demonstrated its enzymic nature.--4. Activation of latent collagenase was partially inhibited by iPr2P-F and KCN. Soybean trypsin inhibitor, iodoacetamide, TosLysCH2Cl and TosPheCH2Cl had no effect.--5. Leucocyte latent collagenase was also activated by an excess of trypsin and p-hydroxymercuribenzenesulphonic acid, but only to the extent of about 40% of its activation capacity. Purified neutral protease from human leucocyte granules had no effect on latent collagenase.--6. Several typical substrates for proteases, peptidases, esterases and glycosidases were not attacked by the activator. The possibility that the activator is a known enzyme, such as kallikrein, urokinase or cathepsin B1, could be excluded.
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PMID:Purification and some properties of collagenase proenzyme activator from rheumatoid synovial fluid. 21 83

The papain inhibitor isolated from chicken egg white inhibits the enzymatic activity of cathepsin B1 and cathepsin C. The inhibitor bears two nonoverlapping reactive sites: one binds cathepsin B1, papain, ficin, and bromelain, the other one cathepsin C. The inhibitor decreases the degree of an immunologic hypersensitive reaction, the so-called Arthus reaction. A statistically significant inhibition of this immunologically developed inflammation occurs only if the inhibitor is applied intradermally and simultaneously with the provoking dose of the antigen to rabbits sensitized to the same antigen. The pepsin inhibitor from the body walls of the roundworm Ascaris lumbricoides inhibits the proteolytic activity of cathepsin E. This inhibitor covalently bound to Sepharose 4B was used for affinity chromatography of cathepsin E. A cathepsin D inhibitor was isolated from potato tubers and its inhibitory and chemical characteristics were studied. The inhibitor does not inhibit either cathepsin E or pepsin yet inhibits trypsin in the alkaline pH-range. The molecular weight of the inhibitor is 21 790 and its molecule consists of 199 amino acid residues. The sequence of 17 amino acid residues was determined by Edman degradation of the inhibitor molecule.
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PMID:Naturally occurring inhibitors of intracellular proteinases. 61 34

Synovia and synovial fluid proteinases were determined in 21 patients with rheumatoid arthritis who were using different kinds of antirheumatic medications. Significantly lower cathepsin B1-like proteinase activity (only 10% of control) was found in the synovial fluid of patients with chloroquine treatment, and significantly lower neutral trypsin-substrate hydrolysing proteinase activity (about 30% of control) was found in the synovia of patients with phenylbutazone treatment. No significant differences were found with other medications: gold, indomethacin, cortisone, acetylsalicyclic acid. No definitive correlations between disease activity parameters and proteinase activities could be found.
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PMID:Effect of antirheumatic drugs on proteinases in synovia of patients with rheumatoid arthritis. 70 Sep 14

1. alpha(2)-Macroglobulin is known to bind and inhibit a number of serine proteinases. We show that it binds thiol and carboxyl proteinases, and there is now reason to believe that alpha(2)-macroglobulin can bind essentially all proteinases. 2. Radiochemically labelled trypsin, chymotrypsin, cathepsin B1 and papain are bound by alpha(2)-macroglobulin in an approximately equimolar ratio. Equimolar binding was confirmed for trypsin by activesite titration. 3. Pretreatment of alpha(2)-macroglobulin with a saturating amount of one proteinase prevented the subsequent binding of another. We conclude that each molecule of alpha(2)-macroglobulin is able to react with one molecule of proteinase only. 4. alpha(2)-Macroglobulin did not react with exopeptidases, non-proteolytic hydrolases or inactive forms of endopeptidases. 5. The literature on binding and inhibition of proteinases by alpha(2)-macroglobulin is reviewed, and from consideration of this and our own work several general characteristics of the interaction can be discerned. 6. A model is proposed for the molecular mechanism of the interaction of alpha(2)-macroglobulin with proteinases. It is suggested that the enzyme cleaves a peptide bond in a sensitive region of the macroglobulin, and that this results in a conformational change in the alpha(2)-macroglobulin molecule that traps the enzyme irreversibly. Access of substrates to the active site of the enzyme becomes sterically hindered, causing inhibition that is most pronounced with large substrate molecules. 7. The possible physiological importance of the unique binding characteristics of alpha(2)-macroglobulin is discussed.
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PMID:The interaction of alpha 2-macroglobulin with proteinases. Characteristics and specificity of the reaction, and a hypothesis concerning its molecular mechanism. 420 4

1. Experiments were performed to determine whether the specific collagenases and other metal proteinases are bound and inhibited by alpha(2)-macroglobulin, as are endopeptidases of other classes. 2. A specific collagenase from rabbit synovial cells was inhibited by human serum. The inhibition could be attributed entirely to alpha(2)-macroglobulin; alpha(1)-trypsin inhibitor was not inhibitory. alpha(2)-Macroglobulin presaturated with trypsin or cathepsin B1 did not inhibit collagenase, and pretreatment of alpha(2)-macroglobulin with collagenase prevented subsequent reaction with trypsin. The binding of collagenase by alpha(2)-macroglobulin was not reversible in gel chromatography. 3. The collagenolytic activity of several rheumatoid synovial fluids was completely inhibited by incubation of the fluids with alpha(2)-macroglobulin. 4. The collagenase of human polymorphonuclear-leucocyte granules showed time-dependent inhibition by alpha(2)-macroglobulin. 5. The collagenolytic metal proteinase of Crotalus atrox venom was inhibited by alpha(2)-macroglobulin. 6. The collagenase of Clostridium histolyticum was bound by alpha(2)-macroglobulin, and inhibited more strongly with respect to collagen than with respect to a peptide substrate. 7. Thermolysin, the metal proteinase of Bacillus thermoproteolyticus, was bound and inhibited by alpha(2)-macroglobulin. 8. It was shown by polyacrylamidegel electrophoresis of reduced alpha(2)-macroglobulin in the presence of sodium dodecyl sulphate that synovial-cell collagenase, clostridial collagenase and thermolysin cleave the quarter subunit of alpha(2)-macroglobulin near its mid-point, as do serine proteinases. 9. The results are discussed in relation to previous work, and it is concluded that the characteristics of interaction of the metal proteinases with alpha(2)-macroglobulin are the same as those of other proteinases.
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PMID:The interaction of alpha2-macroglobulin with proteinases. Binding and inhibition of mammalian collagenases and other metal proteinases. 437 31

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