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)

Adenosine 3',5'-cyclic monophosphate (cAMP) elevation in cultured rat mesangial cells causes urokinase-dependent adhesion loss, stress-fiber fragmentation, and shape change. Thrombin cleaves single-chain urokinase (scu-PA), causing its inactivation, but not two-chain u-PA [tcu-plasminogen activator (PA)] or tissue-type PA. We tested the ability of thrombin to inhibit the effects of cAMP elevation in mesangial cells and inactivate cell-associated scu-PA. In an assay of trypsin-sensitive adhesion, 65.9% of control cells and 5.5% of cells treated with isoproterenol + methylisobutylxanthine (IM) remained adherent. In the presence of 0.01, 0.1, 1.0, and 10.0 unit/ml thrombin, 20.9, 46.6, 50.4, and 53.3%, respectively, of IM-treated cells remained attached. Thrombin also inhibited stress-fiber fragmentation and shape change. The effects of thrombin were blocked by hirudin or antithrombin III plus heparin. Direct zymography in gels containing gelatin and plasminogen revealed loss of a closely spaced pair of PA bands with thrombin treatment (1.0 unit/ml). Hirudin blocked the loss. alpha-Thrombin inactivated by diisopropyl fluorophosphate neither inhibited shape change nor caused loss of the PA bands; however, gamma-thrombin was nearly as active as native alpha-thrombin in both regards. Pretreatment of the cells with as little as 1.0 unit/ml thrombin for 1.0 min caused marked inhibition of shape change and near total loss of the slower migrating u-PA band (of the doublet). The faster migrating band was inhibited less. The results indicate that the slower migrating band represents scu-PA; the nature of the faster migrating band is less certain. Thrombin reversed the adhesion loss and shape change caused by 8-(4-chlorophenylthio)-cAMP and MIX. Thus physiological concentrations of thrombin rapidly inactivate mesangial cell scu-PA and inhibit and reverse cAMP-stimulated adhesion loss and shape change.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of mesangial cell adhesion and shape by thrombin. 165 8

Cultured human endothelial cells synthesize and secrete two types of plasminogen activator, tissue plasminogen activator (t-PA) and urokinase (u-PA). Previous work from this laboratory (Hajjar, K.A., Hamel, N. M., Harpel, P. C., and Nachman, R. L. (1987) J. Clin. Invest. 80, 1712-1719) has demonstrated dose-dependent, saturable, and high affinity binding of t-PA to two sites associated with cultural endothelial cell monolayers. We now report that an isolated plasma membrane-enriched endothelial cell fraction specifically binds 125I-t-PA at a single saturable site (Kd 9.1 nM; Bmax 3.1 pmol/mg membrane protein). Ligand blotting experiments demonstrated that both single and double-chain t-PA specifically bound to a Mr 40,000 membrane protein present in detergent extracts of isolated membranes, while high molecular weight, low molecular weight, and single-chain u-PA associated with a Mr 48,000 protein. Both binding interactions were reversible and cell-specific and were inhibitable by pretreatment of intact cells with nanomolar concentrations of trypsin. The relevant binding proteins were not found in subendothelial cell matrix, failed to react with antibodies to plasminogen activator inhibitor type 1 and interacted with their respective ligands in an active site-independent manner. The isolated t-PA binding site was resistant to reduction and preserved the capacity for plasmin generation. In contrast, the isolated u-PA binding protein was sensitive to reduction, and did not maintain the catalytic activity of the ligand on the blot. The results suggest that in addition to sharing a matrix-associated binding site (plasminogen activator inhibitor type 1), both t-PA and u-PA have unique membrane binding sites which may regulate their function. The results also provide further support for the hypothesis that plasminogen and t-PA can assemble on the endothelial cell surface in a manner which enhances cell surface generation of plasmin.
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PMID:Identification and characterization of human endothelial cell membrane binding sites for tissue plasminogen activator and urokinase. 215 65

The specific role of proteolytic enzymes in the degradation by live cells of fibrillar model matrices (fibrin, collagen) was studied using monoclonal and polyclonal inhibitory (anti-catalytic) antibodies. Dissolution of fibrin by plasminogen-supplemented human HT-1080 cells was blocked by (1) omission of plasminogen, (2) inhibitory anti-plasmin antibody, and (3) inhibitory anti-u-PA antibody but not by non-inhibitory control antibodies. Using a similar approach, it was shown that the dissolution of reconstituted type I collagen fibrils by trypsin-supplemented live human skin fibroblasts was blocked by inhibitory antibodies to fibroblast-type procollagenase but not by noninhibitory control antibodies. These findings permit us to deduce that, at least in culture, the dissolution of fibrin by plasminogen-supplemented HT-1080 cells was mediated by plasminogen-assisted proteolysis which entailed the extracellular conversion of plasminogen to plasmin by cell-derived u-PA, and that the dissolution of collagen fibrils by trypsin-supplemented skin fibroblasts was mediated by a collagenase-dependent pathway.
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PMID:Use of inhibitory (anti-catalytic) antibodies to study extracellular proteolysis. 254 25

The secretion of elevated levels of proteinases is considered to be a distinct property of most transformed cells. The cellular and secreted levels of plasminogen activators and collagenases have been examined in the nonmalignant human osteosarcoma (HOS), the malignant Kirsten murine sarcoma virus transformed (KHOS/NP), the temperature sensitive revertant of virus transformed HOS (KHOS-240S) and N-methyl-N'-nitro-N-nitrosoguanidine transformed HOS (MNNG/HOS) clones. Virus and MNNG transformed clones exhibit 100- and 7-fold higher cellular and and 270- and 30-fold higher extracellular plasminogen activator (PA) activity as compared with untransformed HOS controls. The cellular PA activity of the revertant clone is similar to but the secreted level is slightly higher than the HOS controls. SDS-PAGE in the presence of casein and plasminogen is consistent with the major PA species of urinary type (u-PA) and with the absence of PA inhibitor in the parent and revertant clones. The cellular levels of active collagenase are low in all the clones. However, on activation by trypsin, the two active collagenase bands of similar intensity are observed for all the lines in SDS-PAGE in the presence of gelatin. While there appears to be some elevation of secreted collagenase prior to trypsin activation, the activated collagenases appear to have the same size and activity in all of the clones.
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PMID:Synthesis and secretion of plasminogen activators and collagenases in human cells transformed by Kirsten murine sarcoma virus and N-methyl-N'-nitro-N-nitrosoguanidine. 256 62

Effects of blood serum on u-PA (EC 3.4.21.31) fibrinolytic activity were studied. After incubation for one hour at 37 degrees of the enzyme with human blood serum (55-145 IU/ml of blood serum) the enzymatic activity was completely inhibited. At the same time, amido-lytic activity of u-PA, estimated with low molecular substance S2444 as a substrate, was maintained in presence of blood serum. Blood serum inhibitors did not exhibit the specific affinity to u-PA. Serine proteases (trypsin, chymotrypsin and plasmin) competed with u-PA at equimolar concentrations. These inhibitors were inactivated after blood serum preincubation with primary amines methylamine, ethylamine, putrescine, spermidine and spermine (0.1-10 mM). The u-PA-inhibitor complexes were not dissociated in presence of 2.5 mM sodium dodecylsulfate. Trypsin-albumin copolymer bound specifically the blood serum u-PA inhibitors and the fraction adsorbed was electrophoretically characterized as a protein with molecular mass of 185 kDa.
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PMID:[Interaction of plasminogen activator of urokinase type with human serum]. 314 85

High levels of tissue plasminogen activator (t-PA) have been reported to be the main component of the high fibrinolytic activity measured in patients during orthotopic liver transplantation. However, a previous study of our group suggested that specific t-PA may not completely account for the massive fibrinolytic activities recorded. In the present study we investigated the fibrinolytic patterns in 10 consecutive liver cirrhosis patients undergoing OLT. Euglobulin fibrinolytic activity, measured either on physiologic (fibrin plates) or amidolytic substrates, increased as expected during anhepatic and reperfusion phases, but largely exceeded the specific activity of t-PA, as proved by quenching procedures using anti-t-PA antibodies. The presence of plasmin- and trypsin-like amidolytic activities was detected in native plasmas at the end of anhepatic and reperfusion phases, together with decreased levels of protease inhibitors, especially alpha 1 Antitrypsin. In conclusion, the hyperfibrinolytic pattern recorded in the central OLT phases is not only attributable to an increased t-PA concentration, and is better described as a complex "lytic" state also including the presence of free proteases (plasmin- and trypsin-like), with limited participation of u-PA. Although t-PA increase is probably the main mechanism of stimulation of the fibrinolytic system during OLT, actual and not just potential proteolytic activities can be found in this condition independent of the occurrence of major hemorrhagic complications.
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PMID:Protease activities, as well as plasminogen activators, contribute to the "lytic" state during orthotopic liver transplantation. 769 27

In order to obtain selective suicide substrates of trypsin-like proteases including plasminogen activators, plasmin, and thrombin, a series of cyclopeptides cyclo[Arg or Lys-aB(CH2X)-Gly4], in which a substituted o- or m-aminobenzoyl group constitutes a latent electrophile, have been prepared. Treatment of the corresponding phenyl ethers cyclo[P1-aB(CH2OC6H5)-Gly4] with HBr/HOAc or R1R2S/TFA gives the bromides (X = Br) or the sulfonium salts (X = +SR1R2 with R1 = R2 = Me or R1 = Me and R2 = C6H5), respectively. These water-soluble cyclopeptides behave as time-dependent inhibitors of bovine trypsin and human urokinase (u-PA) but have no effect on tissue plasminogen activator (t-PA) and no or poor effect on plasmin and thrombin. The compounds containing a m-aminobenzoic acid residue are more efficient inactivators than their anthranilic analogues. The kinetic criteria expected for a suicide inhibition are met. A mechanism of inhibition involving the formation of a quinonimmonium methide intermediate is proposed. The activity of the inhibitors is very sensitive to the nature of the X benzylic substituent. An increased efficiency for the inactivation of human urokinase is observed with the sulfonium salts. The selectivity of the inactivation of u-PA compared to t-PA could be of therapeutical significance in controlling cell proliferation and invasion.
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PMID:New mechanism-based inactivators of trypsin-like proteinases. Selective inactivation of urokinase by functionalized cyclopeptides incorporating a sulfoniomethyl-substituted m-aminobenzoic acid residue. 849 23

The biochemical mechanism(s) by which germ cells can form specialized junctions with Sertoli cells in the seminiferous epithelium at various stages of the spermatogenic cycle is unknown. This study sought to examine the biochemical changes that are involved when germ cells are cocultured with Sertoli cells in vitro preceding the establishment of specialized Sertoli-germ cell junctions. While isolated germ cells were allowed to attach to Sertoli cells, media from both the apical and basal compartments of bicameral units were collected to assess serine and cysteine protease activity. The expression of selected serine and cysteine proteases and their corresponding inhibitors in these Sertoli-germ cell cocultures was also examined by RT-PCR. Using an [125I]-collagen film assay, a transient but significant increase in serine protease activity was noted in both the apical and basal compartments when germ cells began to settle onto the Sertoli cell monolayer preceding the formation of intercellular junctions. A specific tryptase (RNK-Tryp 2, a serine protease formerly cloned from a rat granular lymphocyte leukemia cell line, RNK-16, cDNA expression library) was shown to be expressed exclusively by Sertoli cells and not germ cells. Furthermore, Sertoli cell tryptase expression as well as urokinase plasminogen activator (u-PA, also a serine protease) increased significantly when germ cells were adhering to Sertoli cells. The decline in total serine protease activity when Sertoli-germ cell junctions were being formed was accompanied by a concomitant increase in alpha2-macroglobulin (alpha2-MG, a nonspecific protease inhibitor) expression. No significant changes in cysteine protease activity in either the apical or basal compartment were noted. However, there was a transient but significant increase in cathepsin L expression when germ cells were adhering to Sertoli cells preceding cell junction formation. The subsequent reduction in cathepsin L expression after this transient increase was accompanied by a concomitant increase in cystatin C expression. These results suggest that proteases and their corresponding inhibitors are working synergistically and are likely to be involved in the adherence of germ cells to Sertoli cells and the subsequent formation of intercellular junctions.
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PMID:Interactions of proteases and protease inhibitors in Sertoli-germ cell cocultures preceding the formation of specialized Sertoli-germ cell junctions in vitro. 943 34

We have used two fluorescent probes, NBD and dansyl, attached site-specifically to the serpin plasminogen activator inhibitor-1 (PAI-1) to address the question of whether a common mechanism of proteinase translocation and full insertion of the reactive center loop is used by PAI-1 when it forms covalent SDS-stable complexes with four arginine-specific proteinases, which differ markedly in size and domain composition. Single-cysteine residues were incorporated at position 119 or 302 as sites for specific reporter labeling. These are positions approximately 30 A apart that allow discrimination between different types of complex structure. Fluorescent derivatives were prepared for each of these variants using both NBD and dansyl as reporters of local perturbations. Spectra of native and cleaved forms also allowed discrimination between direct proteinase-induced changes and effects solely due to conformational change within the serpin. Covalent complexes of these derivatized PAI-1 species were made with the proteinases trypsin, LMW u-PA, HMW u-PA, and t-PA. Whereas only minor perturbations of either NBD and dansyl were found for almost all complexes when label was at position 119, major perturbations in both wavelength maximum (blue shifts) and quantum yield (both increases and decreases) were found for all complexes for both NBD and dansyl at position 302. This is consistent with all four complexes having similar location of the proteinase catalytic domain and hence with all four using the same mechanism of full-loop insertion with consequent distortion of the proteinase wedged in at the bottom of the serpin.
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PMID:Structural similarity of the covalent complexes formed between the serpin plasminogen activator inhibitor-1 and the arginine-specific proteinases trypsin, LMW u-PA, HMW u-PA, and t-PA: use of site-specific fluorescent probes of local environment. 1196 74

The plasminogen activator isolated from the venom of the snake Trimeresurus stejnegeri (TSV-PA) triggers plasmin production, along with tissue-type plasminogen activators (t-PA) and urokinase (u-PA). The half-life of TSV-PA in plasma is remarkable. We unveil in this paper two of the molecular mechanisms allowing TSV-PA to escape inhibition by plasma serpins. The first involves a phenylalanine at position 193 (chymotrypsinogen numbering system). Phe(193) distinguishes TSV-PA from nearly all trypsin-like proteinases, having glycine at this position. A mutant of TSV-PA (F193G), in which Phe(193) had been replaced by a glycine, was inactivated by plasminogen activator inhibitor 1 (PAI-1) and alpha(2)-antiplasmin 100-fold more rapidly than the wild-type enzyme. The second mechanism originates from the 37-loop of TSV-PA. Swapping the 37-loop of TSV-PA for either that of t-PA or that of u-PA also increased dramatically the rate of inactivation by PAI-1. Loop swapping and F193G mutations were additive, resulting in a rate of inactivation by PAI-1 that was 4 orders of magnitude higher than for the wild-type enzyme. The potential role of Phe(193) and of the 37-loop in the immunity of TSV-PA toward alpha(1)-antitrypsin and antithrombin is also discussed.
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PMID:The stratagem utilized by the plasminogen activator from the snake Trimeresurus stejnegeri to escape serpins. 1208 98

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