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)

The inhibitory effect of the clinically used p-carbethoxyphenyl ester of epsilon-guanidino-caproic acid methanesulphonate (epsilon-GCA-CEP) on the catalytic properties of human LYS77-plasmin (EC 3.4.21.7), bovine factor Xa (EC 3.4.21.6), bovine alpha-thrombin (EC 3.4.21.5), ancrod (EC 3.4.21.28), crotalase (EC 3.4.21.30), bovine beta-trypsin (EC 3.4.21.4), porcine pancreatic beta-kallikrein-B (EC 3.4.21.35), human urinary kallikrein (EC 3.4.21.35) and the Mr 54,000 species of human urokinase (EC 3.4.21.31) was investigated (between pH 2.0 and 8.5, I = 0.1 M; T = 21 +/- 0.5 degrees C), and analyzed in parallel with that of the homologous derivative p-carbethoxyphenyl epsilon-amino-caproate hydro chloride (epsilon-ACA-CEP). On lowering the pH from 5.5 to 3.0, values of the apparent dissociation inhibition constant (Ki) for epsilon-GCA-CEP and epsilon-ACA-CEP interaction with the serine proteinases considered increase, reflecting the acidic pK-shift upon inhibitor binding of a single ionizing group. Over the whole pH range explored, (i) epsilon-GCA-CEP interacts with bovine factor Xa and bovine alpha-thrombin with an higher affinity than that observed for epsilon-ACA-CEP binding; (ii) both inhibitors associate to bovine beta-trypsin with the same affinity; and (iii) epsilon-ACA-CEP inhibits human Lys77-plasmin and the Mr 54,000 species of human urokinase with an higher affinity than that reported for epsilon-GCA-CEP association, thus reflecting the known enzyme primary specificity properties. However, the affinity of epsilon-ACA-CEP for ancrod, crotalase, porcine pancreatic beta-kallikrein-B and human urinary kallikrein, all of which preferably bind arginyl rather than lysyl side chains at the primary position of substrates and/or inhibitors, is paradoxically higher than that displayed by epsilon-GCA-CEP. By considering the amino acid sequences, the X-ray three-dimensional structures and/or the computer-generated molecular models of serine proteinase: inhibitor adducts, the observed binding behaviour of epsilon-GCA-CEP and epsilon-ACA-CEP to the enzymes considered has been related to the inferred stereochemistry of proteinase: inhibitor contact region(s).
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PMID:Inhibition of serine proteinases by p-carbethoxyphenyl esters of epsilon-guanidino- and epsilon-amino caproic acid: thermodynamic and molecular modeling study. 272 72

Glandular kallikrein (a trypsin-like serine protease) is a major estrogen-induced and dopamine-repressed protein in the rat anterior pituitary which appears to be associated with lactotrophs. In the pituitary the enzyme predominantly exists as a latent zymogen (pro-glandular kallikrein) which can be activated by trypsin. This study reports experiments employing biochemical techniques to investigate the subcellular localization of glandular kallikrein. Anterior pituitaries from estrogen-treated rats were fractionated on a discontinuous sucrose density gradient and the distribution of various organelles in the gradient was determined by conventional enzyme or protein marker assays. Each of the 8 organelle markers exhibited a unique distribution profile within the gradient. The distribution of glandular kallikrein was closely correlated (r = 0.91) with that of nucleoside diphosphatase (a marker for trans cisterna of the Golgi apparatus). For both glandular kallikrein and nucleoside diphosphatase, 35-45% of the total activity was found in Golgi zones of the gradient, and 18-22% was in the secretory vesicle fraction. In all of the subcellular fractions, 91-97% of the glandular kallikrein existed in the zymogen form (pro-glandular kallikrein). In Golgi fractions, 38% of the glandular kallikrein remained membrane-bound following freeze-thawing and two washes in hypotonic media; 94% of the nucleoside disphosphatase remained membrane-bound following such treatment. The results indicate that glandular kallikrein is most highly concentrated in trans cisternae of the Golgi apparatus with substantial activity also present in secretory vesicles. This localization is consistent with a role for glandular kallikrein as a prohormone processing enzyme in lactotrophs.
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PMID:Biochemical investigation of the subcellular localization of the estrogen-induced pro-glandular kallikrein in the rat anterior pituitary. 272 45

Two peptides exhibiting kinin activity in an isolated rat uterus assay were purified from pasteurized skim bovine milk. The amino acid sequence of the more prominent peptide was found to be that of bradykinin. Partially purified kinin preparations were also obtained from N-tosyl-L-phenylalanyl chloromethyl ketone-treated trypsin digests of non-fat dry milk and insoluble lactalbumin. The application of fast atom bombardment/mass spectrometry permitted detection of the bradykinin protonated molecular ion in each of these samples. Collision-activated decomposition of the ion of m/z 1061 confirmed it to be the protonated molecular ion of bradykinin. Fast atom bombardment/mass spectrometry analysis further confirmed the occurrence of bradykinin in a pancreatic kallikrein digest of a partially purified bovine milk kininogen preparation. In apparent contrast with bovine plasma kininogens, the forms of kininogen which occur in milk include a high Mr kininogen (Mr greater than 68,000) and a low Mr kininogen (Mr 16,000-17,000). Kinin formation from the high Mr kininogen is catalyzed by porcine pancreatic kallikrein or trypsin.
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PMID:Bradykinin and kininogens in bovine milk. 280 51

A trypsin-like serine proteinase, antigen gamma, immunologically partially identical to glandular kallikrein when run against anti-rat glandular kallikrein antiserum in immunoelectrophoresis, was purified from the rat submandibular gland. The enzyme was purified by a two-step chromatography procedure, ionexchange chromatography followed by gel filtration. The criteria for purity were one band in SDS-polyacrylamide gel electrophoresis and in immunoelectrophoresis, respectively. Antigen gamma had a molecular mass of 25,000 Da and consisted of two polypeptide chains with molecular masses of 14,000 and 11,000 Da. The preparation contained several isoenzymes with pI ranging from 4.1 to 4.5. The enzyme showed high specific enzyme activity against the substrate D-valyl-L-leucyl-L-arginine-4-nitroanilide (S-2266), some trypsin-like and kininogenase activity, but no angiotensin converting enzyme, kininase, or tonin activity. Amidolytic activity was increased and stabilized by the presence of detergent in the assay buffer. The pH-optimum of antigen gamma amidolytic activity was about 10. Antigen gamma was inhibited by SBTI and PMSF, whereas aprotinin had to be added in a more than 100 times higher concentration than for glandular kallikrein. The binding pattern of antigen gamma to plasma proteins was different from that of tonin and glandular kallikrein. Antiserum against antigen gamma was raised in rabbits and characterized against rat submandibular gland homogenate. Immunohistochemistry showed antigen gamma in the secretory granules of the submandibular gland granular tubular cells but only adhering to the luminal cell wall in the striated and main excretory ducts. Antigen gamma was not detected in the sublingual or parotid gland or in the kidney. Antigen gamma was demonstrated by immunoelectrophoresis in rat submandibular gland saliva. The concentration was higher in sympathetically than in parasympathetically induced secretion.
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PMID:Isolation, characterization, and localization of antigen gamma, a serine proteinase of the "kallikrein-family" in the rat submandibular gland. 282 44

The relationship between chemical modifications of arginine derivatives and inhibitory activity to trypsin, plasmin and glandular kallikrein was investigated comparing with that of thrombin and concluded as follows: The hydrophobic binding pocket, which has been reported previously to be stereogeometrically very similar in trypsin and thrombin, corresponded to the length of ethylpiperidine. Concerning the site (termed the P site) next to the hydrophobic binding pocket, there were large differences in stereogeometry between trypsin and thrombin; the binding site of trypsin extended further to allow propyl and phenyl group attached to piperidine, while that of thrombin would be much narrower and unable to allow them. The P sites of plasmin and glandular kallikrein resembled that of trypsin in being able to allow phenyl group. To substantialize the hydrophobic binding pocket and the P site, a (2R, 4R)-MQPA-trypsin complex model was generated using the results of X-ray crystallography of (2R, 4R)-MQPA and BPTI-trypsin complex by calculation to minimize van der Waals contacts, and it was of great use for understanding the geometry of the active sites of trypsin, thrombin, plasmin and glandular kallikrein.
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PMID:Similarity and dissimilarity in the stereogeometry of the active sites of thrombin, trypsin, plasmin and glandular kallikrein. 295 62

Glandular kallikrein is a major estrogen-induced protein of the rat anterior pituitary. A second kallikrein-like protease in the rat anterior pituitary (kallikrein A) is not affected by estrogens, nor is a third pituitary protease which cleaves a trypsin substrate but not kallikrein substrates. This study examined whether any of the pituitary proteases are regulated by dopaminergic mechanisms. Ovariectomized female rats were treated for 5-10 days with reserpine (a catecholamine depleting agent), haloperidol (a dopamine receptor blocker) or bromocriptine (a dopamine receptor agonist); some rats also received 1 or 2 micrograms estradiol benzoate every 48 h. Following activation of latent proteases with trypsin, anterior pituitary extracts were assayed for kallikrein activity before and after fractionation on DEAE-Sephadex to separate the two kallikrein-like proteases. Reserpine or haloperidol doubled glandular kallikrein levels in anterior pituitaries from estrogen-treated rats. Reserpine or haloperidol had little or no effect in the absence of estrogen (estrogen produced a 5- to 7-fold increase in glandular kallikrein in the absence of drug treatment). Bromocriptine markedly attenuated the ability of estrogen to induce glandular kallikrein. Further, bromocriptine blocked the ability of reserpine to increase glandular kallikrein levels, and haloperidol attenuated the effect of bromocriptine. Other anterior pituitary proteases were unaffected by either estrogen, haloperidol, reserpine or bromocriptine. The results demonstrate that the estrogen induction of glandular kallikrein in the rat anterior pituitary is modulated by inhibitory dopaminergic mechanisms. Prolactin is the only pituitary hormone which exhibits a similar profile of hormonal and neuroendocrine regulation; this suggests a possible link between glandular kallikrein and prolactin.
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PMID:Dopaminergic regulation of the estrogen-induced glandular kallikrein in the rat anterior pituitary. 302 15

A plasminogen activator inhibitor was purified from human cornified cell extract by DEAE-Sepharose, Sephacryl S-200, and high-performance liquid chromatographies on hydroxyapatite HPHT and anion-exchanger Mono Q at pH 7.2 and 8.0. The purified inhibitor showed Mr 43,000 and pI 5.2 50% inhibition of fibrinolytic activity (1.5 IU) of urokinase and tissue-type plasminogen activator was attained by 0.60 ng and 11.0 ng purified inhibitor, respectively. Synthetic substrate assay demonstrated slow tight-binding inhibition to both urokinase and tissue-type plasminogen activator. The inhibitor did not inactivate plasmin, thrombin, glandular kallikrein or trypsin.
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PMID:Purification of epidermal plasminogen activator inhibitor. 309 78

The nature of vascular permeability factor (VPF) activity derived from serum-free conditioned medium containing cultured human malignant glial tumors has been further investigated. A 1000-fold purification was accomplished by sequential heparin-Sepharose affinity chromatography and high-performance liquid chromatography gel filtration chromatography steps. Vascular permeability factor activity falls into a molecular weight range of 41,000 to 56,000 D. Activity is bound to hydroxylapatite, carboxymethyl-Sepharose, phenyl-Sepharose, and heparin-Sepharose, whereas little or no activity was bound to diethylaminoethyl-Sephacel. Vascular permeability factor activity is trypsin- and pepsin-sensitive but is unaffected by treatment with ribonuclease A. This suggests that VPF is a hydrophobic, positively charged (cationic) polypeptide with a potentially biologically significant affinity for heparin. As most proteins are negatively charged (anionic) and have no affinity for heparin, a significant advantage was gained by performing these purification steps. The activity of VPF is not inhibited by coinjection of conditioned medium with soybean trypsin inhibitor; or hexadimethrine (both known antagonists of tissue plasminogen activator, Hageman factor, and serum kallikrein); or aprotinin (an antagonist of both plasmin and tissue kallikrein); or phenylmethanesulfonyl fluoride (a serine esterase (elastase) inhibitor); or pepstatin-A (an acid protease inhibitor which inactivates vascular permeability-inducing leukokinins). These data, together with the fact that VPF is produced and released into serum-free media, provides substantial evidence against it being one of the more commonly known serum-derived permeability mediators. Treatment with dithiothreitol inhibited VPF activity, indicating the presence of at least one essential disulfide bond in this molecule. Inhibition by dexamethasone of VPF expression in cultured malignant glial cells appears to be selective. Dexamethasone-induced inhibition of VPF was dose-responsive and was not associated with a parallel inhibition of cellular protein synthesis as determined by tritiated leucine incorporation into trichloroacetic acid-precipitable material. Inclusion of dexamethasone in the culture medium was not associated with altered cell viability or cell number. A series of in vivo studies confirmed the inhibition of VPF activity in test animals pretreated with dexamethasone. This steroid-induced inhibition was partially reversed by treatment of test animals with actinomycin D prior to exposure to dexamethasone.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Further characterization of malignant glioma-derived vascular permeability factor. 313 21

A plasminogen activator inhibitor was purified to apparent homogeneity from conditioned media of U138 cells. The inhibitor is a glycoprotein with a pI of 5.4 and an apparent molecular weight of 45,000. The inhibitor forms sodium dodecyl sulfate-stable complexes with plasminogen activators and trypsin but not with plasmin, thrombin, or pancreatic kallikrein. Some biochemical and immunochemical characteristics of the U138 inhibitor distinguish it from other known plasminogen activator inhibitors. The expression of this inhibitor by U138 cells could be modulated by incubation in phorbol myristate acetate, interleukin-1, tumor necrosis factor, and gamma interferon, but not in beta interferon. Thus, the expression of the plasminogen activator inhibitor can be influenced by biological response modifiers known to be active in the brain and in the neural response to inflammatory stimuli. Therefore, this inhibitor, along with protease nexin, may be involved in brain development and regulation.
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PMID:Purification and partial characterization of a plasminogen activator inhibitor from the human glioblastoma, U138. 314 98

We have isolated and analyzed the gene for batroxobin, a thrombin-like snake venom enzyme. Three overlapping DNA segments containing the entire batroxobin gene were identified. Sequence analysis revealed that the batroxobin gene spans 8 kilobase pairs and contains five exons. Mature batroxobin is encoded by four separate exons, 2 to 5. The catalytic residues of batroxobin, His-41, Asp-86, and Ser-178, are encoded by separate exons, exons 2, 3, and 5, respectively. The exon/intron organization of the batroxobin gene is different from that of the prothrombin gene but very similar to those of the trypsin and kallikrein genes. These results indicate that batroxobin is not a member of the prothrombin family but one of the trypsin/kallikrein family. The snake venom gland is assumed to originate from the submaxillary gland. Therefore, batroxobin is expected to be a member of the glandular kallikrein family.
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PMID:Organization of the gene for batroxobin, a thrombin-like snake venom enzyme. Homology with the trypsin/kallikrein gene family. 316 91

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