Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Three distinct alpha 2PI (alpha 2-antiplasmin) degrading and alpha 2M (alpha 2-macroglobulin) inhibiting enzymes, named proteinase a, b and c, have been purified from the venom of Crotalus basiliscus (the Mexican west coast rattlesnake) by fast protein liquid chromatography (anion-exchange chromatography and gel filtration chromatography). SDS-PAGE revealed that proteinase a and b had similar mol. wts (approximately 23,500), whereas proteinase c displayed a mol.wt of approximately 24,200. Their isoelectric points were found to be acidic, ranging from pH 4.8 to 5.7. The proteinase activity of all three enzymes was inhibited in the presence of EDTA. Dependent on enzyme concentration, a progressive and catalytic inactivation of alpha 2PI was induced, leading to an almost complete loss of the plasmin inhibitory activity at a molar ratio of enzyme: alpha 2PI = 0.1 within 60 min. The ability of alpha 2M to protect the esterolytic activity of trypsin from inhibition by soybean trypsin inhibitor was only reduced at a molar ratio of enzyme: alpha 2M = 0.5, whereas no inactivation could be observed when the three venom proteinases were incubated with an excess of alpha 2M, suggesting that the inactivation occurred by complex formation but not by degradation of the intact alpha 2M molecule. In SDS-PAGE, inactivation of human alpha 2PI (mol. wt 68,000) correlated with the appearance of two cleavage products with an approximate mol. wt of 56,000 and 11,000, respectively. The three proteinases had no thrombin-like activity. Plasminogen and factor X were not activated and no platelet aggregation was induced. They degraded the A alpha- and B beta-chain of fibrinogen and showed plasma extravasation-inducing activity following intradermal injection into the abdominal skin. None of the enzymes showed any activity against a series of chromogenic p-nitroanilide substrates.
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PMID:Purification and characterization of three alpha 2-antiplasmin and alpha 2-macroglobulin inactivating enzymes from the venom of the Mexican west coast rattlesnake (Crotalus basiliscus). 859 84

Plasminogen activation is observed in the human epidermis during reepithelialization of epidermal defects and under certain pathological conditions. The activation reaction depends on keratinocyte-associated plasminogen activators (PAs), which convert the ubiquitous proenzyme plasminogen into the active trypsin-like serine proteinase plasmin. The PAs are controlled by PA inhibitors (PAIs), of which two major types are known: PAI-1 and PAI-2. In vitro and in vivo keratinocytes express both PAIs. In the current study, we have addressed the possible function of PAI-2 in regulating extracellular PA activity in cultured normal human epidermal keratinocytes (NHEK), the human keratinocyte cell line (HaCaT), and a Ha-ras transfected HaCaT variant (HaRas). PAI-2 was detected intracellularly in all three cell types. Whereas only the NHEK and the HaCaT cells secreted detectable levels of PAI-2 into the culture medium, all three cell types released urokinase-type PA (uPA) into the supernatants. When comparing HaCaT and HaRas cells, we found that the cell lines secreted comparable levels of uPA antigen, whereas the levels of uPA activity were low in the presence of PAI-2, indicating that PAI-2 serves to regulate uPA activity. This assumption was supported by the findings that PAI-2 formed complexes with secreted uPA and that uPA/PAI-2 complexes were present at the surface of the PAI-2-secreting HaCaT cells but not at the surface of PAI-2 nonsecreting HaRas cells. Finally, PAI-2 was found to counteract the uPA-dependent and plasmin-mediated detachment of cultured HaCaT cells. Taken together, our findings indicate that secreted PAI-2 serves to regulate the activity of extracellular uPA in keratinocytes.
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PMID:Plasminogen activator inhibitor type-2 (PAI-2) in human keratinocytes regulates pericellular urokinase-type plasminogen activator. 863

Plasminogen activator inhibitor type 1 (PAI-1) is a fast acting inhibitor of plasminogen activators (PAs). In accordance with other serpins, PAI-1 is thought to undergo a conformational change upon reactive center cleavage. In this study we have developed methods to produce and purify reactive center cleaved wild-type PAI-1 and characterized this molecular form of PAI-1 by biochemical and biophysical methods. Incubation with Sepharose-bound trypsin caused cleavage only at the P1-P1' bond in the reactive center and resulted in 39- and 4-kDa polypeptides, strongly held together by noncovalent interactions. Circular dichroism measurements suggest that the reactive center cleavage triggers larger conformational changes than the conversion from the active to the latent form. Cleaved PAI-1 did not bind to either PAs or vitronectin but retained the heparin-binding capacity. To study the structure of cleaved PAI-1 by polarized fluorescence spectroscopy and to measure intramolecular distances, we used cysteine substitution mutants to which extrinsic fluorescence probes were attached. These studies revealed increasing orientational freedom of probes in the P3 and P1' positions upon cleavage. Distance measurements based on fluorescence energy transfer between probes in positions P3 and P1' indicate that these residues are separated by at least 68 +/- 10 A in cleaved PAI-1.
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PMID:Biochemical and biophysical studies of reactive center cleaved plasminogen activator inhibitor type 1. The distance between P3 and P1' determined by donor-donor fluorescence energy transfer. 870 96

Human plasminogen, the inactive precursor of plasmin, exists in two major glycoforms. Plasminogen 1 contains an N-linked oligosaccharide at Asn-289 and an O-linked oligosaccharide at Thr-345. Plasminogen 2 is known to contain only an O-linked oligosaccharide at Thr-345. However, plasminogen 2 displays a further well documented microheterogeneity dependent on the N-acetylneuraminic acid content, which has functional consequences with regard to activation of plasminogen. The proposed structure and number of known oligosaccharide linkages in plasminogen 2 is insufficient to account for this microheterogeneity. In the present study, a combination of trypsin digestion, lectin affinity chromatography, Edman degradation amino acid sequence analysis, carbohydrate composition analysis, and mass spectrometry revealed the existence of a novel site for O-linked glycosylation on plasminogen 2 at Ser-248. Direct evidence for the structure of the carbohydrate was obtained from a combination of lectin affinity chromatography, desialylation experiments, and mass spectrometry analysis. These findings provide a structural basis for some of the observed microheterogeneity, and have implications with regard to the known functional consequences of the extent of sialylation of plasminogen.
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PMID:Evidence for a novel O-linked sialylated trisaccharide on Ser-248 of human plasminogen 2. 905 41

Plasminogen activator inhibitor type 1 (PAI-1), the primary physiologic inhibitor of plasminogen activation, is associated with the adhesive glycoprotein vitronectin (Vn) in plasma and the extracellular matrix. In this study we examined the binding of different conformational forms of PAI-1 to both native and urea-purified vitronectin using a solid-phase binding assay. These results demonstrate that active PAI-1 binds to urea-purified Vn with approximately 6-fold higher affinity than to native Vn. In contrast, inactive forms of PAI-1 (latent, elastase-cleaved, synthetic reactive center loop peptide-annealed, or complexed to plasminogen activators) display greatly reduced affinities for both forms of adsorbed Vn, with relative affinities reduced by more than 2 orders of magnitude. Structurally, these inactive conformations all differ from active PAI-1 by insertion of an additional strand into beta-sheet A, suggesting that it is the rearrangement of sheet A that results in reduced Vn affinity. This is supported by the observation that PAI-1 associated with beta-anhydrotrypsin, which does not undergo rearrangement of beta-sheet A, shows no such decrease in affinity, whereas PAI-1 complexed to beta-trypsin, which does undergo sheet A rearrangement, displays reduced affinity for Vn similar to PAI-1.plasminogen activator complexes. Together these data demonstrate that the interaction between PAI-1 and Vn depends on the conformational state of both proteins and suggest that the Vn binding site on PAI-1 is sensitive to structural changes associated with loss of inhibitory activity.
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PMID:Characterization of the binding of different conformational forms of plasminogen activator inhibitor-1 to vitronectin. Implications for the regulation of pericellular proteolysis. 906 24

Plasminogen contains a unique disulphide bond, Cys558-Cys566, responsible for the cyclic nature of the peptide sequence surrounding the activation site at Arg561-Val562. A recombinant [Ser558, Ser566]-Lys78-plasminogen variant was produced in which the two cysteine residues were replaced by serine residues. The variant was used to study the functional implications of removing the structural restrains imposed to the activation loop by this disulphide bond. Elimination of the Cys558-Cys566 bond attenuated activation by urokinase-type plasminogen activator (uPA) and tissue-type plasminogen activator (tPA), but resulted in an increased susceptibility to cleavage by trypsin and plasma kallikrein. Two opposite effects on the interaction of plasminogen with streptokinase were produced by modification of this bond; (a) attenuation of the rate at which the active complex with streptokinase was formed and (b) a 7.5-fold increase in plasminogen activation catalysed by this complex. Activation by tPA in the presence of fibrin, in contrast to activation in its absence, was not attenuated by elimination of this disulphide bond. However, the activation rate as a function of plasminogen concentration followed a different saturation curve, and the fibrin degradation pattern was changed. The results suggest that the Cys558-Cys566 disulphide bond is of importance for the specificity of plasminogen. This applies to its activation and also to its role in subsequent fibrin clot degradation.
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PMID:Elimination of the Cys558-Cys566 bond in Lys78-plasminogen--effect on activation and fibrin interaction. 949 20

Plasminogen activator inhibitor type 2 (PAI-2) is an unusual member of the serine proteinase inhibitor (serpin) family which has been implicated in the protection of cells from programmed cell death. Human epidermal keratinocytes synthesize large amounts of PAI-2 in two active forms: glycosylated and non-glycosylated. Calcium (Ca2+), a well-known inducer of numerous aspects of keratinocyte terminal differentiation, increases the steady-state levels of PAI-2 mRNA and protein. As the cultures become more differentiated due to longer incubation with Ca2+, the glycosylated form is preferentially elevated. Surprisingly, glycosylated as well as non-glycosylated PAI-2 remains predominantly cell-associated, in a trypsin-inaccessible form and thus most likely inside the cell. Tumor necrosis factor-alpha (TNF-alpha), an inflammatory mediator that induces some markers of keratinocyte differentiation, also increases PAI-2 mRNA and protein levels. Experiments using cultures in which protein kinase C has been downregulated suggest that Ca2+, but not TNF-alpha, acts at least partially through one or more isozymes of this kinase for induction of PAI-2. This is consistent with the finding that the effect of simultaneous addition of Ca2+ plus TNF-alpha is at least additive, compared with addition of either stimulant alone. These data demonstrate that the keratinocyte maintains multiple regulatory pathways for control of PAI-2 expression, at least one of which is related to terminal differentiation.
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PMID:Regulation of the level and glycosylation state of plasminogen activator inhibitor type 2 during human keratinocyte differentiation. 967 18

Plasminogen, the pro-enzyme of plasmin, aids various processes essential for normal, acute wound healing, such as fibrinolysis and cell migration. We have investigated if plasminogen is available to perform these functions in chronic wounds such as venous leg ulcers. We report that plasminogen is degraded by fluid from venous leg ulcers to a number of fragments, including kringle domains 1-3, an angiostatin-related protein. The enzyme responsible was inhibited by the serine protease inhibitor phenyl-methylsulfonyl fluoride, but was not inhibited by alpha1-anti-trypsin, an inhibitor of neutrophil elastase, by alpha2-anti-plasmin, an inhibitor of plasmin, or by the matrix metalloprotease inhibitor 1,10 phenanthroline. Plasminogen degraded by wound fluid was a weaker substrate than intact plasminogen for plasmin generation by the keratinocyte cell line HaCaT. These results suggest that serine protease activity in leg ulcer fluid degrades plasminogen and support the hypothesis that keratinocyte migration may be impaired in leg ulcers because of a reduced availability of intact plasminogen for plasmin generation.
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PMID:Wound fluid from venous leg ulcers degrades plasminogen and reduces plasmin generation by keratinocytes. 985 30

A series of affinity membranes were prepared by using microporous nylon membrane as matrix and activation method with s-triazine and 1,4-butanediol diglycidyl ether, separately. Three proteins with clinic value, gamma-globulin, plasminogen and thrombin, were purified from human plasma by one step with affinity membrane chromatography. The purities of gamma-globulin purified were higher than 83%, and purification folds were higher than 5. The purity of gamma-globulin obtained was higher than that of standard human gamma-globulin. The efficiencies of gamma-globulin purification with affinity membranes prepared by two activation methods were equal. Plasminogen purified with affinity membranes prepared by s-triazine activation was higher than that by 1,4-butanediol diglycidyl ether activation. And SDS-PAGE analysis showed that the purities of gamma-globulin and plasminogen obtained were higher than that of the commercial product. In addition, the purification of thrombin from human plasma by one step with trypsin activation column and affinity membrane was studied. Thrombin with specific activity of 42 NIH unit/mg and 42.5 NIH unit/mg could be obtained from human plasma through affinity membranes prepared by s-triazine and 1,4-butanediol diglycidyl ether methods, respectively.
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PMID:[Purification of proteins in human plasma with new nylon affinity membranes]. 1254 96

The fibrinogen Aalpha R16C mutation is a common cause of dysfibrinogenaemia and has been previously associated with both bleeding and thrombosis. However, the mechanism underlying the thrombotic phenotype has not yet been elucidated. This report characterises the defect in fibrinolysis seen as a result of the Aalpha R16C mutation. A young patient with dysfibrinogenaemia (fibrinogen Hershey III) was found to be heterozygous for the Aalpha R16C mutation. Functional assays were performed on the purified fibrinogen to characterise clot formation and lysis with plasmin and trypsin. Consistent with previous results, clot formation was diminished. Unexpectedly, fibrinolysis was also delayed. Plasminogen activation was normal, ruling out decreased plasmin generation as the mechanism behind the fibrinolytic resistance. Western blot analysis showed no difference in the amount of bound alpha2-antiplasmin or albumin. When clot lysis was assayed with trypsin substituted for plasminogen, a significant delay was also observed, indicating that defective binding to plasminogen could not explain the fibrinolytic resistance. These results suggest that the defective fibrinolysis is due to increased proteolytic resistance, most likely reflecting changes in clot structure.
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PMID:The fibrinogen Aalpha R16C mutation results in fibrinolytic resistance. 1684 81


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