EC:3.4.21.7 - FACTA Search

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Query: EC:3.4.21.7 (plasmin)
9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thrombin converts fibrinogen to fibrin monomer by cleaving fibrinopeptides A and B (FPA and FPB) from the amino terminal ends of the A (alpha) and B (beta) chains. A radioimmunoassay capable of measuring the A peptide in human blood as an index of thrombin action in vivo has been described previously. This paper describes the development of a radioimmunoassay for FPB and the use of both assays in the demonstration of distinctive patterns of cleavage of the amino terminal ends of the A (alha) and B (beta) chains of fibrinogen by various enzymes. Antisera were raised in rabbits to a synthetic analogue of FPB coupled to bovine serum albumin. FPB analogue was couple to desaminotyrosine and radiolabeled with 125I by the chloramine-T technique. The radiolabeled peptide was bound by the antiserum, and binding was inhibited by synthetic or native FPB. Unbound tracer was separated from bound tracer by charcoal adsorption. The senistivity of the assay was such that 50% inhibition of binding of the tracer was caused by 1.25 ng of the native FPB. Fibrinogen was treated with thrombin, plasmin, trypsin, Reptilase, and an extract of the venom from Ancistrodon contortrix contortrix (ACC). After ethanol precipitation and centrifugation, dialysates of enzymatically altered fibrinogen were assayed for FPA and FPB. The action of thrombin on fibrinogen resulted in a rapid release of FPA and a slower release of FPB. Plasmin cleaved a segment(s) of the B (beta) chain which included FPB but cleaved no detectable FPA-containing material for the first 2 h of incubation. In the case of plasmin-treated fibrinogen, the dialysates had been further treated with thrombin before being assayed for FPA and FPB. Trypsin rapidly cleaved both peptides, the B before the A. Reptilase cleaved only FPA in 24 h. ACC cleaved FPB at a rapid rate, with a slowere cleavage of FPA. The distinctive cleavage patterns produced by the serine proteases may be useful in interpreting the levels of FPA and FPB measured in human blood and in studying the generation of FPA and FPB in clinical blood samples.
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PMID:Radioimmunoassay of human fibrinopeptide B and kinetics of fibrinopeptide cleavage by different enzymes. 5 Mar 28

The amino acid sequence of a 38-residue midsection piece of the alpha chain of human fibrinogen has been determined using a combination of plasmin-derived peptides and cyanogen bromide fragments. The segment contains several important features, including four early plasmin attack points, one of the two alpha-chain cross-linking acceptor sites, and a peptide homologous to one isolated from plasmin digests of bovine fibrinogen, and reported to have anticoagulant activity. The segment is sequentially adjacent to and overlapping with a large molecular weight (20000-25000) fragment released during plasminolysis. This latter material is very rich in glycine and serine and deficient in nonpolar amino acids. It also contains the other alpha-chain cross-linking acceptor site.
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PMID:Amino acid sequence studies on the alpha chain of human fibrinogen. Location of four plasmin attack points and a covalent cross-linking site. 12 12

A procedure is presented for purifying a novel proteinase inhibitor in human plasma whose apparent unique biological property is to inhibit efficiently the lysis of fibrin clots induced by plasminogen activator. The final product is homogeneous as judged by disc gel electrophoresis, and immunoelectrophoresis. Its molecular weight estimated by sodium dodecyl sulfate gel electrophoresis or sedimentation equilibrium is 67,000 and 63,000, respectively. The inhibitor is a glycoprotein consisting polypeptide chain containing 11.7% carbohyrate. It migrates in the alpha2-globulin region in immunoelectrophoresis. The inhibitor is chemically and immunologically different from all the other known inhibitors in plasma. Inhibition of plasmin by the inhibitor is almost instantaneous even at 0 degrees, in contrast to the slow inhibition of urokinase (plasminogen activator in urine). Plasminogen activation by urokinase-induced clot lysis is inhibited by the inhibitor mainly through a mechanism of instantaneous inhibition of plasmin formed and not through the inhibition of urokinase. The inhibitor also inhibits trypsin. Consequently, it is suggested that this newly identified inhibitor is named alpha2-plasmin inhibitor or alpha2-proteinase inhibitor. A specific antibody directed against the inhibitor neutralizes virtually all inhibitory activity of plasma to activator-induced clot lysis. Immunochemical quantitation of the inhibitor was specific antiserum to the inhibitor and the purified inhibitor as a standard indicates that the concentration of the inhibitory in the serum of a healthy man is in or near the range of 5 to 7 mg/100 ml, which is the lowest concentration among the concentration of the proteinase inhibitors in plasma. The inhibitor and plasmin, trypsin, or urokinase form a complex which cannot be dissociated with denaturing and reducing agents. The formation of the enzyme-inhibitor complex occurs on a 1:1 molar basis and is associated with the cleavage of a unique peptide bone, which is most clearly demonstrated in the interaction of the inhibitor and beta-trypsin. In the complex formation between the inhibitor and plasmin, the inhibitor is cross-linked with the light chain which contains the active site of plasmin. It is suggested that, in a fashion analogous to complex formation between alpha1-antitrypsin and trypsin, the cross-links are formed between the active site serine of the enzyme and the newly formed COOH-terminal residue of the inhibitor, with cleavage of a peptide bond.
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PMID:Isolation and characterization of alpha2-plasmin inhibitor from human plasma. A novel proteinase inhibitor which inhibits activator-induced clot lysis. 13 98

The primary structure of the human plasmin B-chain has been determined. It consists of 230 residues divided in three cyanogen bromide fragments: The amino-terminal 24 residues, the carboxy-terminal three residues and the middle 203 residues. Sequence detemination was performed on the tryptic and the chymotryptic peptides obtained from the main cyanogen bromide fragment of this chain. Owing to similarities between some of the overlapping chymotryptic peptides, two different sequences were possible from these results. However, since the homologies with the pancreatic serine proteases and also the B-chains of thrombin and factor XA are pronounced, the arrangement still could be settled. By peptic digestion of partially reduced and S-carboxymethylated B-chain it was shown that there are two interchain disulphide bridges, which connect the A and B-chains of plasmin, involving Cys-5 and Cys-105 from the B-chain. The intrachain disulphides in the B-chain seem to be situated exactly as in chymotrypsin as partly judged from homologies.
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PMID:Primary structure of the B-chain of human plasmin. 14 9

One of the earliest plasmin degradation products of human fibrinogen, so-called fragment A, was isolated by a simple method. This peptide has a molecular weight of approximately 22,500, migrating electrophoretically at beta-area, and its amino acid composition shows a very high content of glycine, serine, threonine and proline, and a markedly low content of hydrophobic amino acids. This fragment does not react against anti-fibrinogen; however, the anti-serum of this fragment reacts strongly with fibrinogen.
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PMID:A simple and practical method for isolation of an early plasmin degradation product of human fibrinogen. 14 13

Phosphatidyl serine inhibited non-enzymatic step of fibrin formation (selfassociation of monomeric fibrin). But phosphatidyl serine did not affect the factor XIII activity, the rate of fibrin clot retraction and its tolerance to plasmin. Activity of plasmin was not altered in presence of phosphatidyl serine but influence of slowly acting antiplasmin on plasmin was slightly limited by the lipoid. Due to this phenomenon phosphatidyl serine caused the activation of fibrinolysis in native system (blood plasma). The data obtained support the earlier advanced assumptions on inhibition of thrombin-fibrinogene reaction by phosphatidyl serine.
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PMID:[Effect of phosphatidylserine on formation and lysis of fibrin]. 15 Jul 1

A series of substituted benzamidines has been examined for their inhibitory activity against the human serine proteases--trypsin, thrombin, plasmin, and C1s, a subunit of the first component of complement. The inhibition constants obtained for each enzyme were correlated with physical-chemical properties of the substituent group using the quantitative structure-activity relationship approach. This analysis indicated that plasmin and C1s are very similar in their interactions with substituted benzamidines. The binding of benzamidines in both enzymes was affected by electron donation from the substituent and its hydrophobicity. Thrombin-benzamidine interaction was affected only by the hydrophobicity of the substituent. Trypsin displayed a complex interaction with substituted benzamidines, and interaction was dependent on molar refractivity and molecular weight. Certain substituents deviated significantly from the interactions predicted by the analysis. These compounds, the (m- and p-amidinophenyl)pyruvic acids, when analyzed by computer modeling, suggested that direct interaction between the substituent and the enzyme surface is important in assessing the effect of substituent groups on inhibitory activity.
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PMID:Inhibition of four human serine proteases by substituted benzamidines. 15 12

The single, highly stable form of mouse submandibular gland nerve growth factor (NGF), prepared as described by Young et al. [(1978) Biochemistry 17, 1490--1498] is a protease of restricted specificity that can convert plasminogen to plasmin. In the absence of plasminogen, NGF is not fibrinolytic, nor does it hydrolyze casein at a measurable rate. Treatment of NGF with diisopropyl fluorophosphate inhibits its ability to activate plasminogen as well as its capacity to hydrolyze certain synthetic arginine esters. These results indicate that NGF is a member of the class of serine proteases. Since NGF is known to be secreted at high concentrations in mouse saliva, it may serve to activate plasminogen (with subsequent fibrinolysis) somewhere in the alimentary tract. Plasminogen activation is the only known action of NGF upon a biologically important non-neural substrate.
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PMID:Nerve growth factor: a protease that can activate plasminogen. 15 22

Aprotinin, a protease inhibitor, has been used in a wide variety of pathophysiological states thought to be associated with an increase in protease activity. Opinion differ with respect to the success of the therapy. This paper proposes a rationale for the therapeutic action of aprotinin based on biochemical and physiological evidence. In the kallikrein-kinin system, in addition to kallikrein, other serine-esterases such as trypsin, plasmin, etc. can generate kinin production. In certain disease states such as pancreatitis there is not only an increase in serine-protease activity but frequently these enzymes reach parts of the organism where they are not found in health. Thus in such circumstances increased production of kinins can result. The consequences of increased kinin generation are discussed in light of work indicating their role in metabolic and circulatory homeostasis. Aprotinin is specifically a serine-esterase inhibitor. It is suggested that perhaps the most important action of this compound is as an inhibitor of the kallikrein-kinin system. On this basis a therapeutic regime in various disease states for the use of aprotinin, which allows for control of kinin generation, is suggested.
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PMID:A rationale for the therapeutic action of aprotinin. 15 36

Changes of prekallikrein in the cases with DIC were investigated, i.e., DIC cases including disseminated metastasis of gastric cancer, acute promyelocytic leukemia and endotoxin shock. Therefore, the trigger substances for this paper were the pathologic cells of the leukemia, the cultured well differentiated adenocarcinoma cells and endotoxin. (1) The lysates of the pathologic cells of the leukemia and the cultured cells showed prekallikrein activation. Endotoxin showed prekallikrein activation via factor XII. (2) Serine proteases (factor Xa, thrombin, plasmin and trypsin) activated prekallikrein in the plasma and the purified prekallikrein. (3) Antithrombin III, aprotinin and FOY inhibited prekallikrein activation. Antithrombin III was promoted by heparin in its inhibitory effect.
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PMID:Changes of prekallikrein in the cases with disseminated intravascular coagulation syndrome. 16 Jan 91

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