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)

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

Normal human plasma contains acid-stable as well as labile plasminogen activators. The activity of activators in plasma euglobulins was inhibited by EACA in an uniform pattern, similar to that obtained with the major activators in human uterine tissue or with the purified porcine tissue activator, but different from the patterns obtained with plasmin or with urokinase. Gel filtration at high ionic strength separated activators corresponding to particle sizes of 60,000 dalton and about 10,000 dalton, corresponding to two activators similarly obtained from human tissue. The 60,000 dalton activator was precipitated in the euglobulin fraction. Its concentration increased in plasma after exercise. The 10,000 dalton activator was found mainly in the supernatant. Gel filtration in 0.15 M solutions yielded activators in fractions of molecular sizes of 100-140,000 dalton and 200,000 dalton or larger. The activity of normal and exercise euglobulins was inhibited by antiserum to a plasminogen activator prepared from porcine tissue, but it was not inhibited by antiserum to urokinase. Plasminogen activators in human plasma euglobulins resembled immunochemically the activators in human uterine tissue.
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PMID:Separation of plasminogen activators from human plasma and a comparison with activators from human uterine tissue and urine. 48 46

Debrisan, a highly hydrophilic dextran polymer, was previously shown to be effective in cleaning infected wounds. The dry beads remove wound secretions from the wound surface under gel formation. The gel can then be analysed. A high fibrinolycic activity on fibrin plates and high levels of fibrin/fibrinogen degradation products were found in the secretions from 12 wounds. Low of plasminogen, antithrombin III and the absence of coagulable fribinogen also indicated a high fibrinolytic activity. A higher fibrinolytic activity on heated than on unheated fibrin plates, and the insignificant effect of local application of EACA suggest the presence of other proteolytic enzymes than plasmin.
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PMID:Fibrinolytic activity in wound secretions. 101 84

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

To investigate the nature of plasminogen binding to streptococci, strains selected for high reactivity with human plasminogen were examined for binding pattern against a panel of plasminogen fragments. The strains included human isolates of groups A, C and G as well as bovine isolates of group G. All strains reacted substantially with the plasminogen fragment kringle 1-3. Using the miniplasminogen fragment (kringle 5 and the B chain) a small but reproducible uptake was detected for human group G strains but not for group A or C strains. The group G strains of bovine origin on the other hand demonstrated high uptake of miniplasminogen, suggesting the possibility of an alternative plasminogen receptor for this species. This interpretation was supported by blocking experiments with the lysine analogue EACA where low concentrations (1 mM) completely blocked plasminogen binding to human streptococci, whereas a 100-fold higher concentration was needed for bovine group G strains. Scatchard plots with human isolates resulted in straight lines and Kd values were generally in the range of 20-80 nM. The number of receptors was estimated to be 45,000 for a selected group A strain and about 10,000 for the selected group C and G strains. Scatchard analysis with bovine group G isolates on the other hand revealed a two phase interaction, supporting the assumption of two different receptor structures on these strains. Kd for the first phase was estimated to be about 20 nM (10,000-20,000 receptors per bacterium), which was similar to the human strains, whereas the second phase was in the range of 400-500 nM (50,000 and 150,000 receptors per bacterium with two selected strains). Scatchard plots with the miniplasminogen fragment as ligand mimicked the phase two reaction with plasminogen, supporting the concept that this reaction represents a new and not previously described receptor. Both the receptor reacting with the kringle 1-3 portion and the one reacting with the miniplasminogen portion bound plasmin and plasminogen with similar affinity.
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PMID:Two types of receptors for human plasminogen on group G streptococci. 137 93

Plasmin inhibition by alpha 2-antiplasmin (alpha 2AP) is regulated by the vascular components fibrin(ogen) fragments, plasminogen and lipoprotein (a). Kinetic analysis demonstrates that CNBr-derived fibrinogen fragments completely protect plasmin from alpha 2AP. Plasminogen and 6-aminohexanoic acid decrease the rate of inhibition by 5- and 10-fold respectively. These studies show that CNBr-derived fibrinogen fragments and 6-aminohexanoic acid bind plasmin kringle(s) with binding constants of 2 micrograms/ml and 120 microM respectively, and that plasminogen binds to alpha 2AP with an affinity of 0.5 nM. The unmodulated inhibition is not effected by the presence of lipoprotein (a), but in the presence of protective CNBr-derived fibrinogen fragments the rate of inhibition is increased by the presence of the lipoprotein. The kinetics demonstrate that lipoprotein (a) binds to CNBr-derived fibrinogen fragments with an affinity of 4 nM, displacing plasmin from the protective surface. In addition, tissue-type plasminogen activator and trypsin inhibition by alpha 2AP is not slowed by the presence of CNBr-derived fibrinogen fragments or plasminogen (Pg), respectively. These kinetics suggest that the initial reversible interaction between plasmin and alpha 2AP is mediated by binding of the inhibitor to the kringle 1 domain of plasmin, with a reversible inhibition constant (Ki) of 5.0 x 10(-10) M. Under conditions where this kringle-inhibitor interaction is blocked, the reversible inhibition still occurs between the plasmin and alpha 2AP, but the initial Ki is increased to 5.0 x 10(-9) M. These data suggest that, in the circulation, plasmin inhibition by alpha 2AP may be down-regulated by fibrin, fibrin(ogen) fragments and Pg, but up-regulated by lipoprotein (a) in the presence of fibrin or fibrin(ogen) fragments. The lipoprotein (a)-mediated promotion of plasmin inhibition may provide an additional mechanism by which the lipoprotein impairs fibrinolysis and promotes atherosclerosis.
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PMID:Lipoprotein (a) promotes plasmin inhibition by alpha 2-antiplasmin. 138 85

The amidolytic activity of plasmin with the chromogenic substrate H-D-valyl-L-leucyl-L-lysine p-nitroanilide (S-2251) is stimulated by oleic acid in a dose-dependent and saturable fashion. The activity of plasmin on S-2251 in the presence of oleic acid followed a sigmoidal kinetic pattern, with an almost 4-fold stimulation of activity at 60 microM-oleic acid. Half-maximal stimulation occurred at an oleic acid level of 19.5 microM. The amino acid analogue 6-aminohexanoic acid (AHA), which is known to bind to lysine-binding sites in plasmin, suppressed the stimulatory effect of oleic acid in a concentration-dependent manner; at 0.3 mM-AHA, about 70% of the oleic acid-dependent enhancement of plasmin activity was abolished. The l/v versus 1/[S] plot for plasmin changed in the presence of oleic acid from a linear to a non-linear curve, suggesting positive co-operativity. 14C-labelled oleic acid bound to plasmin, and the bound ligand was displaced by an excess of unlabelled oleic acid. Oleic acid also produced a marked (40-fold) stimulation of the plasminogen-dependent cleavage of S-2251 by urokinase. A half-maximal effect on plasminogen activation was obtained at 40 microM-oleic acid. The present findings suggest that the ability of oleic acid to stimulate plasmin activity and to enhance the conversion of plasminogen to plasmin depends on the interaction of oleic acid with specific lysine-binding sites in plasmin.
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PMID:Stimulation of plasmin activity by oleic acid. 153 91

When purified high molecular weight kininogen was incubated with streptokinase-activated plasmin and kallikrein, a larger amount of kinin was released than would have been predicted from the effect of either enzyme alone. To determine the mechanism of this enhancement, high molecular weight kininogen was digested sequentially with these enzymes, and the rates of kinin release and sites of cleavage were determined. Conversion of 133 kd native high molecular weight kininogen to two-chain 112 kd or 102 kd derivatives by plasmin more than doubled the rate of kinin release by kallikrein. Conversely, digestion of high molecular weight kininogen by kallikrein and then plasmin did not enhance the rate of kinin release. The kallikrein cleavage points that provided 112 kd and 102 kd two-chain high molecular weight kininogen were after residues 437 (Arg-Lys) and 389 (Arg-Ser), whereas those for plasmin were after 438 (Lys-His) and 389 (Arg-Ser). epsilon-Aminocaproic acid, which competes for lysine residues that are critical to the binding of plasminogen or plasmin to substrates, inhibited the digestion of high molecular weight kininogen by plasmin, which is consistent with the evidence that the 438-439 Lys-His was a primary site of plasmin attack on high molecular weight kininogen. Furthermore, this cleavage was observed when plasminogen activation was induced in normal and in prekallikrein or Hageman factor-deficient plasmas. We suggest that the generation of fibrinolytic activity in blood could result in enhanced kinin release by kallikrein in regions of inflammation as a result of the collaborative actions of plasmin and kallikrein on high molecular weight kininogen.
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PMID:Mechanism of enhanced kinin release from high molecular weight kininogen by plasma kallikrein after its exposure to plasmin. 153 55

To explore whether fibrin fragments have binding affinity for the tissue-type plasminogen activator (t-PA) molecule, the interactions were studied of (DD)E complex and fragments DD, E1, and E3 with one-chain and two-chain t-PA. For this purpose, a solid-phase binding assay was developed using microtiter plates with nitrocellulose filters. It was found that (DD)E complex and fragments DD and E3 retained the t-PA binding function of the parent fibrin molecule, thus demonstrating that t-PA binds to both the D and E domains of fibrin. Unexpectedly, fragment E1 did not bind t-PA. Fibrin fragments had different binding properties for one-chain and two-chain t-PA. (DD)E complex had the highest and fragment E3 the lowest affinity for one-chain t-PA, both binding curves being consistent with one class of binding sites. However, binding of the fragments with two-chain t-PA was distinguished by more than one class of binding sites, with fragment E3 having the highest affinity for this form of the activator. epsilon-Aminocaproic acid, even at 50 mmol/L concentration, had only minimal effect on binding of (DD)E complex or fragment DD to either one-chain or two-chain t-PA. The potentiating effect of fibrin fragments on plasminogen activation by t-PA was measured by a chromogenic substrate assay. Fragment DD was the most effective stimulator of plasminogen activation by t-PA. In conclusion, (DD)E complex and fragment DD retained most of the regulatory functions of fibrin, which included t-PA binding and t-PA-mediated acceleration of plasminogen activation to plasmin.
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PMID:Binding of fibrin fragments to one-chain and two-chain tissue-type plasminogen activator. 157 44


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