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)

Activity of tissue and blood plasma kallikreins as well as total content of their inactive precursors were studied in rabbit eye structures and media: iris, ciliary body, cornea, vascular striatum, retina, aqueous humor, tear liquid, lacrimal gland by means of fluorimetric procedure using Z-Phe-Arg-MCA as a substrate. Dissimilar capacity of the trypsin soya bean inhibitor and of aprotinin (basic inhibitor of Kunitz type) to inhibit tissue and blood plasma kallikreins enabled to differentiate the enzymatic activity. Lacrimal gland contained the highest activity of tissue kallikrein which amounted to 70% of total Z-Phe-Arg-MCA-hydrolyzing activity of the homogenate. Total Z-Phe-Arg-MCA-amidase activity and activity of individual kallikreins was distinctly lower in all the eye structures and media studied as compared with that of lacrimal gland. Activity of tissue kallikrein was higher than blood serum kallikrein activity in iris, ciliary body, vascular striatum, retina and conjunctiva. The highest content of prekallikreins was found in conjunctiva, aqueous humor, iris and ciliary body. Tissue and blood plasma kallikrein-kinin systems appear to carry out dissimilar functions in eye tissue structures; they are apparently involved in pathogenesis of some eye diseases.
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PMID:[Activity of tissue and plasma kallikrein and level of their precursors in eye tissue structures and media of healthy rabbits]. 172 76

1. alpha-1-Antiproteinase (also called alpha-1-antitrypsin or alpha-1-proteinase inhibitor) with a molecular mass of 60 kDa was purified to apparent homogeneity from hamster plasma. 2. It inhibited elastase, chymotrypsin and trypsin, but did not significantly affect pancreatic kallikrein, plasma kallikrein or plasmin. 3. It has the same N-terminal heptapeptide sequence as that of rat alpha-1-antiproteinase. 4. Its plasma level decreased after injection of bacterial lipopolysaccharide.
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PMID:Purification, characterization, and acute phase response of plasma alpha-1-antiproteinase in the hamster, Mesacricetus auratus. 172 45

T-kininogen, the major kininogen in rat plasma, releases Ile-Ser-bradykinin (T-kinin) when incubated with trypsin, but is not a substrate for tissue kallikrein. Enzymes able to release T-kinins from T-kininogen have been found in the rat submandibular gland, but precise identification of these enzymes and their possible relationship to kallikrein-like enzymes has not been established. We studied T-kininogenase activity in fractionated submandibular gland homogenate. The main T-kininogen catalytic enzyme was purified and characterized, and found to be identical to antigen gamma, a kallikrein-like enzyme which we have previously characterized. Of other identified kallikrein-like enzymes only tonin showed weak T-kininogenase activity, which was about 0.25% of that of antigen gamma. No other T-kininogen catalytic enzymes were observed. Antigen gamma released a kinin which was identified as T-kinin by reverse-phase h.p.l.c. The T-kininogenase activity of antigen gamma had a Km of 29 +/- 4 microM and a kcat/Km of 140 M-1.s-1, and was comparable with its high and low molecular mass-kininogenase activity (7.4 and 10 micrograms of kinin/h per mg respectively). In contrast, tissue kallikrein released 0.2 and 42,200 micrograms of kinin/h per mg respectively. Thus antigen gamma is a weak kininogenase. The isoelectric point of antigen gamma, but not its molecular mass, differed from that of other kallikrein-like enzymes. Isoelectrofocusing in flat-bed gels combined with immunostaining was therefore a convenient method for identification. The kallikrein-like nature of antigen gamma was demonstrated by its immunological similarity to tissue kallikrein and tonin and by 91% and 87% amino acid sequence similarity with tonin and kallikrein respectively (67 amino acids sequenced). Complete identity was also not observed with other sequenced kallikrein genes, mRNAs or proteins.
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PMID:T-kininogenase activity of the rat submandibular gland is predominantly due to the kallikrein-like serine protease antigen gamma. 174 46

D-Gluconic acid and alpha-carboxymethyl-polyethylene-glycol-omega-methyl ether (PEG) (mol wt 550) were covalently bound at N alpha-amino group of H-Phe-Arg-pNa to study the effect on hydrolysis by arginyl-hydrolases of chromogenic substrates containing high hydrophilic and amphiphilic groups. For comparison, epsilon-aminocaproyl-, sarcosyl- and succinyl-Phe-Arg-pNa were also synthesized. The obtained compounds were assayed as substrates for porcine pancreatic kallikrein, horse urinary kallikrein, tonin and beta-trypsin. Both PEG- and gluconyl-Phe-Arg-pNa had kcat values of hydrolysis 2-4 times higher than the N-acetyl derivative for all the studied enzymes. epsilon-NH2caproyl-Phe-Arg-pNa resulted in the best chromogenic substrate described for the two tissue kallikreins. The PEG-derivative and D-gluconyl groups were also introduced in the N alpha-amino group of H-Arg-pNa and assayed as beta-trypsin substrates. In comparison with benzoyl-Arg-pNa, the D-gluconyl group had no effect on Km but reduced the kcat value more than 15 times; however, PEG-Arg-pNa was hydrolyzed with similar Km but with kcat 5 times higher. The presence of D-gluconyl and PEG groups in the chromogenic substrate molecules increased their water solubility significantly.
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PMID:Synthesis and hydrolysis by arginyl-hydrolases of p-nitroanilide chromogenic substrates containing polyethylene glycol and D-gluconyl moieties. 182 Nov 68

1. The effects of the alpha 2-adrenoceptor antagonist, yohimbine (0.5 mg kg-1, i.v.) on basal, sympathetic and parasympathetic stimulation-induced submaxillary kallikrein release were investigated in the anaesthetized dog. Kallikrein was measured by its kininogenase activity before and after trypsin activation which also allowed a study of the proportion of active to total enzyme. 2. Yohimbine induced a rapid, three fold increase in basal kallikrein release correlated with an increase in salivary flow rate which lasted for 60 min following injection. 3. Sectioning the chorda tympani did not affect basal kallikrein release but abolished yohimbine-induced rise in salivary kallikrein secretion. 4. Parasympathetic stimulation alone induced a 3 to 4 fold increase in basal kallikrein release correlated with an increase in salivary flow rate. Yohimbine induced a significant additional increase in parasympathetic-stimulated kallikrein release. 5. When the cervical sympathetic nerve was sectioned the basal kallikrein release decreased by 30 to 40%. 6. Sympathetic stimulation alone also induced a 3 to 4 fold increase in basal kallikrein. This was not correlated with the salivary flow and unaffected by yohimbine. 7. The results indicate that yohimbine increases submaxillary kallikrein release into the saliva by inhibition of presynaptic alpha 2-adrenoceptors located on the chorda tympani nerve endings.
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PMID:Yohimbine increases submaxillary kallikrein release into the saliva in dogs: evidence for alpha 2-adrenoceptor-mediated inhibition of cholinergic pathways. 184 66

In this study we investigated the effects of steroid hormones on glandular kallikrein gene expression in the rat pancreatic acinar cell line AR42J. Using a cloned complementary DNA probe and a polyclonal antibody we demonstrated expression of a true glandular kallikrein gene and protein in AR42J cells by Western and Northern blot analysis. Dexamethasone resulted in a time-dependent parallel decrease of kallikrein messenger RNA and protein with a maximum at 12 and 72 h (30 +/- 10 and 8 +/- 0.5% of control, respectively, P less than 0.05, n = 6). In contrast, dexamethasone stimulated gene expression of two other serine proteases, chymotrypsin and trypsin, approximately 3 to 4-fold. The decrease of kallikrein concentration was dose dependent with half-maximal effects at 5 x 10(-8) M and maximal effects at 10(-7) M dexamethasone (23 +/- 6% of control, n = 3). The glucocorticoid antagonist RU 38486 blocked the glucocorticoid-induced decrease in cellular kallikrein content in a dose-dependent manner. Complete inhibition was observed at equimolar doses of dexamethasone and the antagonist. The inhibitory effect of dexamethasone was completely reversible after hormone withdrawal for 24 h. Neither estrogen, progesterone, testosterone, or aldosterone had significant effects on kallikrein expression. These data suggest that down-regulation of pancreatic kallikrein gene expression occurs selectively in response to glucocorticoids at a pretranslational level, mediated most likely by the glucocorticoid receptor.
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PMID:Glandular kallikrein gene expression is selectively down-regulated by glucocorticoids in pancreatic AR42J cells. 201 48

Mouse kidney contains urinastatin (UT)-like immunoreactive substances with trypsin inhibitory activity. Immunohistochemical studies show that these UT-like substances are localized in the same region as kidney kallikrein, i.e. in the distal tubules. Sephadex column chromatography of mouse kidney extract using 0.1M NaCl as the eluent yielded fractions (C.F.) containing both UT-like and kallikrein-like material. In these fractions (C.F.), the removal of UT-like material caused a concomitant decrease in kallikrein-like activity and vice versa. However, when the kidney extract was eluted with an acidic buffer of high ionic strength, the fractions containing both UT-like and kallikrein-like substances were not observed. These results suggest that these two components are intimately bound to one another. The kallikrein activity responded differently to pH, to metal ions (zinc and copper), and to the sodium/potassium ratio, depending on the concomitant presence or absence of UT-like material. These findings suggest that kallikrein activity in kidney tissue is modified by the presence of an UT-like substance.
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PMID:Human urinary trypsin inhibitor (urinastatin)-like substance in mouse kidney and its relationships to mouse kidney kallikrein. 207 4

Contrapsin and two isoforms, F (fast) and S (slow), of alpha-1-antiproteinase (also called alpha-1-proteinase inhibitor) were isolated in an apparently homogeneous state from plasma of inflamed guinea pigs. Contrapsin inactivated trypsin, but did not significantly affect chymotrypsin, pancreatic elastase, or pancreatic kallikrein. On the other hand, both isoforms of alpha-1-antiproteinase inhibited trypsin, chymotrypsin, and elastase, but not plasma or pancreatic kallikrein. The S isoform of alpha-1-antiproteinase was present in barely detectable amounts in healthy animals, but increased markedly when the acute-phase reaction was induced by subcutaneous injection of turpentine. On the other hand, the plasma levels of the F isoform, contrapsin, and alpha-macroglobulin showed moderate (1.5 to 2.3-fold) elevation during the acute-phase reaction. In contrast to the previous findings that rats and rabbits contain two different alpha-macroglobulins, one of which is an acute-phase reactant while the other is not, inflamed guinea pigs contained only one species of alpha-macroglobulin. Murinoglobulin, the most prominent acute-phase negative protein in both mice and rats, showed no significant change in guinea pigs. These results indicate that guinea pig plasma contains four major trypsin inhibitors, i.e., contrapsin, alpha-1-antiproteinase, alpha-macroglobulin, and murinoglobulin, the properties of which are very similar to those of the respective mouse homologues, but that the acute-phase response of these inhibitors differs greatly from that of the homologous proteins in rats or mice.
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PMID:Trypsin inhibitors in guinea pig plasma: isolation and characterization of contrapsin and two isoforms of alpha-1-antiproteinase and acute phase response of four major trypsin inhibitors. 211 21

Evidence for a kallikrein-kinin system (KKS) in fish is incomplete. In the present study, components of the KKS were identified in rainbow trout. Tissues were assayed for kallikrein-like esterolytic activity using three synthetic kallikrein substrates (TAME, VGAN, and PPAN), and the presence of kallikrein substrate (kininogen) in trout plasma was estimated by bradykinin (BK) radioimmunoassay of plasma activated with trypsin (T). Formation of pressor-depressor substances in vivo by porcine glandular kallikrein (GK) and T was measured after intra-arterial injection into unanesthetized trout. Gill and kidney contained kallikrein activity (TAME and VGAN assays); little activity was observed with PPAN. Aprotinin inhibited gill activity (TAME assay). T liberated 42 +/- 3 (SE) ng (n = 10) of immunoreactive BK per milliliter of plasma. Injection of GK in vivo reduced plasma kininogen levels for over 24 h. GK produced pressor responses only in fish pretreated with the angiotensin-converting enzyme (ACE) inhibitor captopril. This effect was mediated partly through stimulation of alpha-adrenergic receptors. T produced slight pressor responses that were captopril insensitive. These results show that trout possess elements of the KKS system including kallikrein-like enzymatic activity, kininogen, receptor-mediated vascular sensitivity to kallikrein products, and kininolytic activity consistent with ACE (kininase II).
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PMID:Enzymes of the kallikrein-kinin system in rainbow trout. 217 52

We have studied rat vascular smooth muscle (VSM) cells in culture for the presence of key elements of the glandular kallikrein-kinin system. Direct radioimmunoassay (RIA) using antiserum against rat urinary kallikrein detected a glandular kallikrein-like enzyme (GKLE) in VSM cells and in media. VSM homogenates and culture media had kininogenase activity, generating kinins from dog kininogen. About half of the GKLE was enzymatically inactive which could be activated with trypsin. Kininogenase activity was inhibited completely by aprotinin but only 20% by soybean trypsin inhibitor (SBTI). Trypsin liberated kinins from homogenates and media, demonstrating that VSM cells contain kininogen. Homogenates and media rapidly degrade bradykinin. GKLE, kininogen, and bradykininase activity were all present in VSM cells grown in defined media that contain no serum, thus eliminating any contamination or artefacts from fetal calf serum in standard culture media. Blood vessels of the rat have been reported to contain GKLE. Our observations indicate that GKLE is synthesized by VSM cells, not deposited from plasma. Furthermore, VSM cells synthesize kininogen and bradykininase(s), the other key elements of the glandular kallikrein-kinin system. Thus it is possible that the system functions as an autocoid mechanism that regulates local vascular tone.
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PMID:Rat aortic smooth muscle cells in culture express kallikrein, kininogen, and bradykininase activity. 229 24

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