EC:3.4.21.7 - FACTA Search

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 unstimulated platelet surface contains a specific and saturable binding site for high molecular weight kininogen (HK) and low molecular weight kininogen (LK). Investigations were performed with purified heavy and light chains of HK to determine which portion(s) of the HK molecule binds to the platelet surface. Purified 64-Kd heavy chain of HK and 56-Kd light chain of HK, independently, inhibited 125I-HK binding to unstimulated platelets with a 50% inhibitory concentration (IC50) of 84 nmol/L (apparent Ki, 30 nmol/L) and 30 nmol/L (apparent Ki, 11 nM), respectively. The ability of each of the purified chains of HK to independently inhibit 125I-HK binding was not due to cleavage, reduction, and alkylation of the protein, because two-chain HK, produced by treating HK the same way as purifying the separate chains, inhibited binding similarly to intact HK. Further, purified LK alone inhibited 125I-HK binding to platelets (Ki, 17 +/- 1 nmol/L, n = 7). The 64-Kd heavy chain of HK was a competitive inhibitor on a reciprocal plot of 125I-HK-platelet binding with an apparent Ki of 28 +/- 6 nmol/L (n = 4). Independently, purified 56-Kd light chain of HK was also found to be a competitive inhibitor of 125I-HK-platelet binding, with an apparent Ki of 11 +/- 3 nmol/L (mean +/- SEM, n = 4). These indirect studies indicated that HK binds to platelets by two portions of the molecule, one on the heavy chain and another on the light chain. Studies with 125I-light chain of HK showed that it specifically bound directly to platelets in the presence of zinc, since it was blocked by HK, light chain of HK, or EDTA, but not by LK, C1s, C1 inhibitor, plasmin, factor XIII, or fibrinogen. Purified light chain of HK did not inhibit direct 125I-LK binding to platelets. HK was found to bind to platelets in an unmodified form. HK bound to platelets was cleaved by plasma or urinary kallikrein at a slower rate than the same concentration of soluble HK or HK bound and subsequently eluted from the platelet surface. Cleavage of platelet-bound HK correlated with bradykinin liberation. These studies indicate that HK has two domains on its molecule that bind to platelets. Further, platelet-bound HK is protected from kallikreins' proteolysis. This latter finding suggests that cell binding may modify the rate of bradykinin liberation from HK.
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PMID:High molecular weight kininogen binds to platelets by its heavy and light chains and when bound has altered susceptibility to kallikrein cleavage. 153 48

Twelve human C1 inhibitor P1 variants were constructed by site-directed mutagenesis of the codon for arginine 444 and were expressed in COS-1 cells to analyze the functional properties. The ability to bind to target proteases, as well as potential substrate-like behavior, was investigated with radioimmunoassays. The P1-Lys variant retained binding capacity toward C1s, plasmin, and kallikrein. In addition, complex formation with C1s was detected for P1-Asn and P1-His. All other P1 substitutions resulted in C1 inhibitor variants that neither complexed with nor were inactivated by C1s, kallikrein, beta-factor XIIa, or plasmin. Electrophoretic studies confirmed that P1-Lys and P1-His can form sodium dodecyl sulfate-resistant complexes with C1s. In contrast, the C1s-P1-Asn complex dissociated upon addition of sodium dodecyl sulfate. Kinetic experiments by the method of progress curves generated association rate constants (kon) with C1s of 4.2 x 10(4) M-1 s-1 for recombinant wild-type C1 inhibitor and 1.7 x 10(4) M-1 s-1 for P1-Lys. For P1-Asn and P1-His, kon was decreased approximately 100-fold. The results from inhibition experiments were compatible with a model of reversible inhibition, although the observed dissociation rate for wild-type C1 inhibitor is too low (1-2 x 10(-6) s-1) to be physiologically relevant. The overall inhibition constant (Ki) was estimated to be 0.03 nM. With P1-Asn, reversible inhibition could be demonstrated directly upon dilution of preformed complexes; the observed dissociation rate constant was 3.2 x 10(-4) s-1; and Ki increased to approximately 380 nM. These findings are discussed in relation to inhibitor specificity and inhibition mechanism.
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PMID:Characterization of recombinant C1 inhibitor P1 variants. 155 9

Release of tissue plasminogen activator (t-PA) and its interaction with plasma protease inhibitors were studied in two patients with massive defibrination, one after electroshock and soft tissue injury and the other after complicated labor; both had very severe hemorrhage. Large quantities of free t-PA were present in the circulation for several hours. Complexes of t-PA with plasminogen activator inhibitor 1 (PAI-1), alpha 2-macroglobulin and C1-inhibitor were also observed. PAI-1 antigen rose dramatically in both patients, and complexes of t-PA with PAI-1 rose rapidly during the period of observation. In contrast, the complexes of t-PA with alpha 2-macroglobulin and C1-inhibitor, present initially, persisted for short periods only and disappeared when free t-PA disappeared from the circulation. Plasmin was generated initially, as indicated by the presence of plasmin-alpha 2-antiplasmin complexes. Plasma concentrations of alpha 2-macroglobulin, C1-inhibitor, antithrombin III, and alpha 2-antiplasmin were severely depleted initially, but rapidly returned to normal. The observations demonstrate that there is a major release of t-PA in such defibrinating patients, that there is a role for protease inhibitors other than PAI-1 in the regulation of endogenous t-PA, and indicate the great rapidity with which such free t-PA is complexed and cleared.
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PMID:Complexing of tissue plasminogen activator with PAI-1, alpha 2-macroglobulin, and C1-inhibitor: studies in patients with defibrination and a fibrinolytic state after electroshock or complicated labor. 168 22

Serpins form a family of structurally related proteins, many of which function in plasma as inhibitors of serine proteases involved in inflammation, blood coagulation, fibrinolysis, and complement activation. To further characterize the mechanism by which serpins inhibit their target enzymes, we have studied the effect of temperature on the reaction of C1 inhibitor and the serine protease plasma kallikrein. At both 38 and 4 degrees C, C1 inhibitor (Mr 105,000) is cleaved by alpha-kallikrein (Mr 85,000 and 88,000) at position P1 (Arg444) of the reactive center, a reaction that leads to the formation of a covalent bimolecular enzyme-serpin complex (Mr 195,000) and cleaved but uncomplexed serpin (Mr 95,000). Between 38 and 4 degrees C, the product distribution is temperature-dependent, with more cleaved C1 inhibitor (Mr 95,000) formed at lower temperatures and correspondingly less Mr 195,000 complex. Studies employing intrinsic tryptophan fluorescence and 1H NMR spectroscopy show that this behavior is not caused by temperature-dependent conformational changes of kallikrein or C1 inhibitor. C1 inhibitor also behaves in this manner with the light chain of kallikrein and, to a lesser extent, with plasmin and C1s. These data are best explained by a branched reaction pathway, identical with the scheme describing the mechanism of action of suicide substrates. This scheme involves the formation of an enzyme-inhibitor intermediate, which can be stabilized into a covalent complex and/or dissociate into free enzyme and cleaved inhibitor, depending on the reaction conditions.
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PMID:Mechanism of serpin action: evidence that C1 inhibitor functions as a suicide substrate. 188 45

Increased extracellular proteolysis because of unregulated activation of blood coagulation, complement, and fibrinolysis is observed in thrombosis, shock, and inflammation. In the present study, we have examined whether the plasma kallikrein-kinin system, the classical pathway of complement, and the fibrinolytic system could be inhibited by alpha 1-antitrypsin reactive site mutants. Wild-type alpha 1-antitrypsin contains a Met residue at P1 (position 358), the central position of the reactive center. It did not inhibit plasma kallikrein, beta-factor XIIa, plasmin, tissue-type plasminogen activator (t-PA), or urokinase. In contrast, these serine proteases were inhibited by alpha 1-antitrypsin Arg358. For the inhibition of C1s, a double mutant having Arg358 and a Pro----Ala mutation at P2 (position 357) was required. This double modification was made because C1-inhibitor, the natural inhibitor of C1s, has Arg and Ala residues at positions P1 and P2. Plasminogen activator inhibitor 1, the natural inhibitor of t-PA, also has Arg and Ala residues at positions P1 and P2. In a purified system, alpha 1-antitrypsin Ala357-Arg358 was 150-fold less efficient against C1s than C1-inhibitor and 27,000-fold less efficient against t-PA than plasminogen activator inhibitor-1. In plasma, 2.3 microM alpha 1-antitrypsin Ala357-Arg358 reduced by 65% the formation of a complex between kallikrein and C1-inhibitor following activation of the intrinsic pathway of blood coagulation by kaolin. Furthermore, after supplementation by 2.0 microM alpha 1-antitrypsin Ala357-Arg358, zymographic analysis showed that the majority of the free t-PA of normal plasma formed a bimolecular complex with the double mutant. In contrast, 3.4 microM alpha 1-antitrypsin Ala357-Arg358 did not prevent the activation of the classical pathway of complement observed when normal serum is supplemented with anti-C1-inhibitor F(ab')2 fragment. These results demonstrate that alpha 1-antitrypsin Ala357-Arg358 has therapeutic potential for disorders with unregulated activation of the intrinsic pathway of blood coagulation and the fibrinolytic system; however, the double mutant is not an efficient inhibitor for the classical pathway of complement.
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PMID:Reactivity of alpha 1-antitrypsin mutants against proteolytic enzymes of the kallikrein-kinin, complement, and fibrinolytic systems. 219 58

We describe a mechanism of action of autoantibodies reactive with the C1 esterase inhibitor (C1EI) molecule found in three patients with acquired angioedema without associated diseases. All of these patients have a circulating C1EI of lower molecular weight than that of normal control subjects. When native C1EI was added to patient, but not control, plasmas, it was cleaved to a lower molecular weight fragment under conditions that allowed contact system activation. In a partially purified system, patient immunoglobulin preparations impaired stable complex formation between plasmin and C1EI and exaggerated the cleavage of the latter to a lower molecular weight fragment. We propose that the autoantibody does not interfere with the cleavage of the bait sequence of the inhibitor but reduces the availability of the reactive center of the molecule in a way that interferes with the irreversible inhibition of target enzymes. In this way unregulated activation of the kinin and complement pathways occurs, leading to disease manifestations via as yet uncharacterized mediators.
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PMID:Acquired angioedema: observations on the mechanism of action of autoantibodies directed against C1 esterase inhibitor. 245 51

Oxidative inactivation of alpha-1-proteinase inhibitor (A1-P1) and plasminogen activator inhibitor-1 (PAI-1), both members of the serine protease inhibitor (serpin) superfamily, using mild oxidation conditions has been already demonstrated. The oxidation mechanism has been shown to involve conversion of methionine to methionine sulfoxide in the reactive center of the inhibitors. In this study evidence is presented that alpha-2-antiplasmin (A2-PI) and antithrombin III (AT III) can also be inactivated by means of oxidation. For total inactivation of 50 pM A1-PI about 10 nM chloramine T (CT) and for the same molar concentration of A2-PI and AT III about 250 nM CT were found necessary. C1-inhibitor (C1-INH) showed some resistance to oxidation that could be overcome only by increasing CT to an amount (greater than 2000 nM) already beginning to inactivate the corresponding C1-esterase. As target enzymes for A2-PI, AT III, and A1-PI plasmin, thrombin and elastase, respectively, were used. Their activity was not impaired by the oxidation conditions applied. As there is no methionine in the reactive center of AT III an additional mechanism for oxidative inactivation of serpins has to be taken into consideration. Oxidation seems to be a general mechanism for altering the balances between serine proteases and their inhibitors in favour of the protease.
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PMID:Oxidative inactivation of purified human alpha-2-antiplasmin, antithrombin III, and C1-inhibitor. 245 61

Trypsin (Try), plasma kallikrein (KK) and plasmin activities together with coagulation factor XII (F XII, Hageman factor), high-molecular-weight kininogen (HMWK), plasma prekallikrein (PKK), alpha 2-macroglobulin (alpha 2-M), C1 inhibitor (C1Inh), and functional plasma kallikrein inhibition (KKI) values were studied in peritoneal fluid and lavage taps of 9 patients with severe acute pancreatitis treated with peritoneal lavage. Both immunochemical methods and functional techniques based on chromogenic peptide substrate assays were used. In the exudate obtained before peritoneal lavage was performed, F XII was 52%, HMWK was 30%, PKK was 40%, alpha 2-M was 29% and C1Inh was 57% of standard plasma pool values, determined by immunochemical technique. Functional plasma KKI values were zero, whereas Try activities determined by chromogenic peptide substrate technique were markedly elevated in the exudate. Using a prepacked HR 10/30 Superose Tm 12 column (Pharmacia, Uppsala, Sweden) and chromogenic peptide substrate assays, Try and KK activities were detected in the alpha 2-M containing fractions of the peritoneal exudate demonstrating KK-alpha 2-M and Try-alpha 2-M complex formation. The peritoneal lavage procedure efficiently eliminated components of the contact system and protease activities. In the first lavage tap, Try activities were markedly reduced compared to values found in the exudate and concentrations of F XII, HMWK, PKK, alpha 2-M and C1Inh were all zero. In consecutive lavage taps Try values were also zero. The study shows that the lavage procedures efficiently clears the peritoneal cavity for protease-alpha 2-M complexes generated during acute pancreatitis. Also, components of the contact system found in peritoneal exudate, and which might serve as substrates for the protease-alpha 2-M complexes, are rapidly eliminated by the procedure.
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PMID:Peritoneal lavage efficiently eliminates protease-alpha-2-macroglobulin complexes and components of the contact system from the peritoneal cavity in patients with severe acute pancreatitis. 246 82

Pancreatic pseudocyst fluid from eight patients was examined biochemically. The fluid was found to be a mixture of plasma proteins and pancreatic juice, possessing a high proteolytic activity against high- as well as low-molecular-weight proteins. The proteolytic activity was found to be trypsin-, kallikrein- and plasmin-like. Gel filtration studies showed proteolytic activity to be present corresponding to alpha-2-macroglobulin-bound proteases and also to free proteases. Quantitative immunochemical levels were about 30-100% of normal plasma levels for alpha-2-macroglobulin, C1 inhibitor, antithrombin III and alpha-2-antiplasmin. However, there was practically no functional inhibitory capacity left in the pseudocyst fluid, except for alpha-1-protease inhibitor, which retained its inhibitory capacity. Neither native kininogen nor complement factor C3 was found: this was probably a result of the proteolytic activity. It is concluded, that a continuing proteolytic activity within the pseudocyst, although decreasing with aging of the cyst, could explain symptoms and complications caused by the pseudocyst.
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PMID:Pancreatic pseudocyst fluid--a mixture of plasma proteins and pancreatic juice possessing a high proteolytic activity. 253 13

Stimulation of platelets and neutrophils occurs during clinical cardiopulmonary bypass. We investigated whether the classical complement, contact, or fibrinolytic pathways are activated as potential sources of neutrophil agonists. Using enzyme-linked immunosorbent "sandwich" assays specific for C1s-C1-and kallikrein-C1-inhibitor complexes respectively, we found that there was a modest increase in plasma levels of each complex after clinical cardiopulmonary bypass was completed. The increased concentration of enzyme-inhibitor complexes reverted to baseline within 24 hours. Since these complexes are cleared in vivo, we measured their formation by assaying their plasma levels during in vitro simulated extracorporeal circulation. Over a period of two hours, C1s-C1-inhibitor complexes rose from a baseline of 2 +/- 1 nmol/L to 21 +/- 2 nmol/L, and kallikrein-C1-inhibitor complexes rose from 2 +/- 1 nmol/L to 25 +/- 5 nmol/L. However, there was no evidence of either in vivo or in vitro plasmin-alpha 2-plasmin-inhibitor complex formation. These results indicate that the pathways of classical complement and contact activation, but probably not fibrinolysis, may be associated with neutrophil activation seen during clinical cardiopulmonary bypass.
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PMID:Formation of C1s-C1-inhibitor, kallikrein-C1-inhibitor, and plasmin-alpha 2-plasmin-inhibitor complexes during cardiopulmonary bypass. 291 86

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