Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

The major plasmin inhibitors namely alpha2-plasmin inhibitor and alpha2-macroglobulin were compared for their effects on lysis of fibrin clot. Plasmin fibrinolytic activity was immediately inhibited by alpha2-plasmin inhibitor, whereas alpha2-macroglobulin inhibited plasmin progressively. Urokinase(plasminogen activator)-induced clot lysis was inhibited efficiently by alpha2-plasmin inhibitor present in the clot. Inhibition of urokinase-induced clot lysis by alpha2-macroglobulin was weak and the molar concentration necessary for alpha2-macroglobulin to achieve the same degree of inhibition as that achieved with alpha2-plasmin inhibitor was about 10 times higher than that of alpha2-plasmin inhibitor. Binding of Lys-plasminogen to fibrin was inhibited by alpha2-plasmin inhibitor but not by alpha2-macroglobulin. Molar concentrations of alpha2-plasmin inhibitor which were effective in inhibiting the binding were 30 times less than that of 6-aminohexanoicacid. alpha2-Plasmin inhibitor was found to interact with Lys-plasminogen to form a weakly-bound complex which is dissociable in the presence of 6-aminohexanoic acid, suggesting that inhibition of binding of Lys-plasminogen to fibrin by alpha2-plasmin inhibitor may be due to interaction of alpha2-plasmin inhibitor with a specific site of the plasminogen molecule and that the site may be 6-aminohexanoic acid-binding site. It is suggested that alpha2-plasmin inhibitor is more reactive and efficient inhibitor of fibrinolysis than alpha 2-macroglobulin.
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PMID:Effects of alpha2-plasmin inhibitor on fibrin clot lysis. Its comparison with alpha2-macroglobulin. 7 50

Pretreatment of native plasminogen with plasmin or activators resulted in a pronounced increase in the binding of plasminogen to fibrin. The pretreated plasminogen was considered to be identical to the proteolytically degraded proenzyme with NH2-terminal lysine, valine or methionine, which is formed as an intermediate stage during activation of plasminogen. Bound plasminogen could be extracted by 6-aminohexanoic acid indicating a reversible binding between plasminogen and fibrin. Adsorption of pretreated plasminogen decreased when increasing concentrations of 6-aminohexanoic acid or trans-4-aminomethylcyclohexane-1-carboxylic acid (t-AMCHA) were present during fibrin formation. The concentration of amino acid producing a decrease in the binding of pretreated plasminogen to 0.5 of the amount bound in the absence of amino acid was 8.0-10(-5) M with 6-aminohexanoic acid and 1.7.10-5 M with t-AMCHA. The decrease in binding is most likely related to an effect of the amino acids on plasminogen, since agarose gel electrophoresis of pretreated plasminogen in the presence of 6-aminohexanoic acid or t-AMCHA showed a cathodic shift in mobility at the same range of concentrations of amino acid, which produced the decrease in binding of plasminogen to fibrin. Evidence is provided that the decrease in binding of proteolytically degraded plasminogen may result in an inhibition of fibrinolysis caused by activators.
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PMID:Differences in the binding to fibrin of native plasminogen and plasminogen modified by proteolytic degradation. Influence of omega-aminocarboxylic acids. 12 94

A method is described by which the heavy chain of human plasmin, obtained by partial reduction of urokinase-activated plasminogen with 2-mercaptoethanol, is adsorbed on lysine coupled to polyacrylamide. The heavy chain is recovered from the adsorbent by elution with 6-aminohexanoic acid (yield 60-65%). Sulfhydryl titrations of the heavy chain showed that the partial reduction involved primarily the cleavage of the sole interchain disulfide bridge of plasmin. Dodecylsulfate-polyacrylamide electrophoresis gave essentially a single band corresponding to a component of about 60000 molecular weight. The NH2-terminal amino acid was predominantly threonine. 6-Aminohexanoic acid at different concentrations caused significant variations of the sedimentation and diffusion constants of the heavy chain indicating inhibitor-induced conformational alterations of the protein. The present results suggest that in plasmin only the heavy chain is capable of interacting with 6-aminohexanoic acid, and it appears that it is primarily this chain which plays an important role in the inhibition of the enzyme by 6-aminohexanoic acid.
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PMID:A new method of isolation and some properties of the heavy chain of human plasmin. 12 54

The reaction between antiplasmin (A) and a low-molecular-weight form of plasmin (P) proceeds in at least two steps: a fast reversible second-order reaction followed by a slower irreversible first-order transition, and may be represented by: P +A k1 in equilibrium k-1 PA k2 leads to PA'. The low-Mr plasmin, which is obtained by limited elastase digestion, is composed of an intact B chain and a small A chain lacking the lysine-binding sites. The k1 of the reaction is (6.5 +/- 0.5) x 10(5) M-1 s-1 which is 30--60 times smaller than that for normal plasmin and antiplasmin. The dissociation constant of the first step is 1.9 x 10(-9) M which is 10 times higher than for normal plasmin and antiplasmin. The rate constant of the second step is (4.2 +/- 0.2) x 10(-3) s-1 for both normal and low-Mr plasmin. Low Mr plasmin which has substrate bound to its active site does not react or reacts only very slowly with antiplasmin. The reaction rate, however, is only slightly influenced by 6-aminohexanoic acid in concentrations up to 1 mM which decrease the reaction rate of normal plasmin approximately 50-fold. The findings further indicate that the lysine-binding site(s) of plasmin are of great importance for the rate of its reaction with antiplasmin.
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PMID:On the kinetics of the reaction between human antiplasmin and a low-molecular-weight form of plasmin. 14 57

The effects of L-lysine, 6-aminohexanoic acid, and trans-4-aminomethylcy-clohexane-1-carboxylic acid on the catalytic activity of plasmin (EC 3.4.21.7) have been investigated. The kinetics of the plasmin-catlysed hydrolysis of alpha-N-benzoyl-L-arginine ethyl ester in the presence of these compounds have been studied at a number of different concentrations of the three modifiers. They each exert two effects on the reaction, an activation and an inhibition, the concentration dependencies of which are markedly different. They must therefore arise from two different interactions between plasmin and the modifier. The inhibition is competitive, so that it most probably results from direct interaction at the catalytic site. The activation is kinetically non-competitive. The experimental observations seem to be explained best by assuming that L-lysine and certain analogous compounds function as both allosteric modifiers and competitive inhibitors of plasmin.
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PMID:Allosteric effects of some antifibrinolytic amino acids on the catalytic activity of human plasmin. 15 Aug 62

The primary inhibitor of plasmin in human plasma was purified by a four-step procedure involving fractional (NH(4))(2)SO(4) precipitation, ion-exchange chromatography on a column of DEAE-Sepharose CL-6B and affinity chromatography on both a plasminogen-CH-Sepharose 4B column and a column of 6-aminohexanoic acid covalently coupled through the carboxylate function to AH-Sepharose 4B. No impurities in the final preparation could be detected when tested by immunoelectrophoresis against a range of specific antisera or against rabbit anti-human serum. On polyacrylamide-gel electrophoresis the inhibitor preparation showed a single band. The dissociation constant for the inhibitor-plasminogen complex was determined to be approx. 3mum at pH7.8. The reactions of the inhibitor with human plasmin and with bovine trypsin were studied. Comparison of the results obtained confirms the hypothesis previously presented, namely that the reaction of the inhibitor with plasmin involves at least two steps, the initial rapid formation of an enzyme-inhibitor complex followed by a slow irreversible transition to another complex. The results also indicate that the reaction of the inhibitor with trypsin involves just a single, irreversible step, so that this reaction seems to be less complicated than that of the inhibitor with plasmin. The ways in which 6-aminohexanoic acid influences the reactions were studied. The same value for the dissociation constant (approx. 26mum) for 6-aminohexanoic acid is obtained for both its effect on the reaction of the inhibitor with trypsin and for competitive inhibition of trypsin. The inhibitory effect of 6-aminohexanoic acid thus seems to be due to its blocking of the active site of trypsin. In contrast with this, the inhibitory effects of l-lysine and 6-aminohexanoic acid on the inhibitor-plasmin reaction occur at concentrations much too low to affect the active site of plasmin. The possible dependence of the reaction of the inhibitor with plasmin on a second site(s) on plasmin is discussed.
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PMID:Purification and reaction mechanisms of the primary inhibitor of plasmin from human plasma. 15 22

Plasminogen and plasminogen derivatives which contain lysine-binding sites were found to decrease the reaction rate between plasmin and alpha2-antiplasmin by competing with plasmin for the complementary site(s) in alpha2-antiplasmin. The dissocwation constant Kd for the interaction between intact plasminogen (Glu-plasminogen) and alpha2-antiplasmin is 4.0 microM but those for Lys-plasminogen or TLCK-plasmin are about 10-fold lower indicating a stronger interaction. The lysine-binding site(s) which is situated in triple-loops 1--3 in the plasmin A-chain is mainly responsible for the interaction with alpha2-antiplasmin. The interaction between Glu-plasminogen and alpha2-antiplasmin furthermore enhances the activation of Glu-plasminogen by urokinase to a comparable extent as 6-aminohexanoic acid, suggesting that similar conformational changes occur in the proenzyme after complex formation. Fibrinogen, fibrinogen digested with plasmin, purified fragment E and purified fragment D interfere with the reaction between plasmin and alpha2-antiplasmin by competing with alpha2-antiplasmin for the lysine-binding site(s) in the plasmin A-chain. The Kd obtained for these interactions varied between 0.2 microM and 1.4 microM; fragment E being the most effective. Thus the fibrinogen molecule contains several complementary sites to the lysine-binding sites located both in its NH2-terminal and COOH-terminal regions; these sites are to a large extent.
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PMID:On the specific interaction between the lysine-binding sites in plasmin and complementary sites in alpha2-antiplasmin and in fibrinogen. 15 66

Streptokinase reacts very rapidly with human plasmin (rate constant 5.4 S 10(7) M-1 s-1) forming a 1:1 stoichiometric complex which has a dissociation constant of 5 X 10(-11) M. This plasmin-streptokinase complex is 10(5) times less reactive towards alpha 2-antiplasmin than plasmin, the inhibition rate constant being 1.4 X 10(2) M-1 s-1. The loss of reactivity of the streptokinase-plasmin complex towards alpha 2-antiplasmin is independent of the lysine binding sites in plasmin since low-Mr plasmin, which lacks these sites, and plasmin in which the sites have been blocked by 6-aminohexanoic acid, are both equally unreactive towards alpha 2-antiplasmin on reaction with streptokinase. The plasmin-streptokinase complex binds to Sepharose-lysine and Sepharose-fibrin monomer in the same fashion as free plasmin, showing that the lysine binding sites are fully exposed in the complex. Bovine plasmin is rapidly inhibited by human alpha 2-antiplasmin (k1 = 1.6 X 10(6) M-1 s-1) and similarly loses reactivity towards the inhibitor on complex formation with streptokinase (50% binding at 0.4 microM streptokinase).
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PMID:Kinetics of the reactions between streptokinase, plasmin and alpha 2-antiplasmin. 15 24

Plasminogen is detected in the basal cell layer of the epidermis, keratinocytes can generate plasminogen activators and it is suggested that the generation of plasmin may facilitate keratinocyte division, migration and differentiation. In this study we have investigated the characteristics of plasminogen binding sites in normal human epidermis. It was found that 6-aminohexanoic acid and benzamidine displaced endogenous epidermal plasminogen from the basal layer suggesting that endogenous plasminogen binds initially via the kringle 5 aminohexyl (AH) site. Plasminogen binding sites in epidermis were further investigated by displacing endogenous plasminogen and incubating sections with exogenously added glu-plasminogen, lys-plasminogen and plasmin or the isolated plasminogen fragments kringles 1-3, kringle 4 and kringle 5L. The results suggest that the uptake of plasminogen involves primary interaction with the kringle 5AH site and a secondary interaction with lysine binding sites of kringles 1-3. Cell binding is not dependent upon additional reactions of the plasmin active centre.
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PMID:Plasminogen binding sites in normal human skin. 131 Nov 89

Glu- and Lys-plasminogen interaction with native and desAABB-fibrin obtained from fibrinogen partially hydrolyzed by plasmin was studied. It was found that native fibrin adsorbs 6 times more Lys-plasminogen as compared to the native form of the proenzyme. The range of the Lys-plasminogen binding does not change, if part of the fibrinogen molecules hydrolyze down to X-fragments. At the same time, the appearance in the system of 1% Xi-fragments leads to a 6-fold increase in the Glu-plasminogen binding. The amount of adsorbed Glu-plasminogen reaches the level of Lys-plasminogen adsorption both in the native and partially hydrolyzed fibrin. It was found that kringle K 1-3 or 6-aminohexanoic acid at saturating for high-affinity lysine-binding sites concentrations do not influence the Glu-plasminogen binding to native fibrin but inhibit it when the partially purified form is used. It is assumed that the manyfold increase of the Glu-plasminogen binding to partially hydrolyzed fibrin is due to the alteration of the proenzyme conformation at the initial steps of fibrin hydrolysis during the formation of Xi fragments.
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PMID:[Features of the interaction of Glu- and Lys-forms of plasminogen with native and partially hydrolyzed fibrin]. 132 96


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