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Query: UMLS:C0432222 (SEM)
 47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of plasmin treatment upon washed human platelets were studied in an attempt to elucidate the mechanisms underlying thrombin-induced platelet aggregation. At calcium concentrations of 10-20 muM, PLASMIN (0.2 CTA U/ml) inhibited thrombin-induced aggregation almost completely, but did not diminish the thrombin-induced release of adenine nucleotides, 5-hydroxytryptamine, or calcium. Increasing the calcium concentration partially antagonized plasmin's inhibition of aggregation. Studies utilizing calcium chelators and the Kunitz soybean trypsin inhibitor (SBTI) as a plasmin inhibitor indicated that in order to achieve maximal block of aggregation, plasmin must act upon a substrate made fully available only after an initial thrombin-platelet interaction has taken place. Moreover, the time course of this inhibition parallels the time course of the thrombin-induced release reaction. Plasmin inhibition of aggregation could not be mimicked by exposing the platelets to proteolytic digests of fibrinogen at concentrations as high as 17% total platelet protein. Nor could inhibitory activity be recovered from supernatants of plasmin-treated platelets, upon centrifugation and treatment with SBTI. With the use of a "cold initiation" technique, the release by thrombin of 46.7 plus or minus 6.7 (mean plus or minus SEM) mu-g of fibrinogen immunological equivalents per mg platelet protein could be demonstrated. Platelets in which thrombin-induced aggregation was abolished by plasmin treatment (and the plasmin subsequently inactivated by STBI) aggregated normally upon addition of as little as 10 mu-g human plasma fibrinogen per mg platelet protein. It is concluded that plasmin inhibition of aggregation most likely results from its attack upon a protein that is released or becomes fully available subsequent to interaction of thrombin with a platelet receptor mediating release. The results of this study are consistent with a cofactor role for fibrinogen in the aggregation of human platelets by thrombin.
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PMID:Plasmin inhibition of thrombin-induced platelet aggregation. 12 75

An intermittent dosage scheme of streptokinase (standard initial dose 600,000 units SK infused over 30 min and repeated injections of 250,000 units SK at 24 hr intervals) was applied during 4 days in 9 patients with chronic obliterative arterial disease and in 8 patients with venous occlusion. Each dose of streptokinase produced an immediate fall in plasminogen to 17% (SEM 5.1) of the initial value, the level then rose to 50% (SEM 5.4) within 24 hr. Lowered levels of antiplasmin and fibrinogen (both less than 40% of the initial values) were maintained. This safe level of fibrinogen was maintained despite brief but high peaks of plasmin activity after each injection of SK. A parallel increase of the thrombin time and the fibrin (ogen) degradation products was obtained following each infusion. No bleeding was observed. The relative therapeutic effect of intermittent infusions of streptokinase has still to be compared with the continuous administration of streptokinase in controlled clinical trials.
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PMID:Biochemical changes noted during intermittent administration of streptokinase. 14 18

Aprotinin has been shown to reduce blood loss and blood requirement when administered prior to surgery and this therapeutic benefit appears to be related to its specificity as a protease inhibitor. The inhibition of plasmin by aprotinin is well characterized, but little is known of its effect on thrombin. In preliminary experiments, we showed that aprotinin can prevent platelet aggregation induced by thrombin. Follow-up studies have now been performed in order to clarify the effect of aprotinin on thrombin. A fluorescence study of the direct binding of aprotinin to human alpha-thrombin was analysed according to the Michaelis-Menten model and a dissociation constant of 30 x 10(-6) mol.l-1 was determined. Aprotinin can displace p-aminobenzamidine, a fluorescent-probe molecule which binds to the active site of serine proteases, showing that the active site of thrombin was involved. Aprotinin also inhibited the ability of thrombin to induce a fibrin clot from purified fibrinogen and to induce the hydrolysis of the chromogenic substrate H-D-phenylalanylpipecolylarginine-p-nitroanalidehydrochloride++ + (S-2238). With S-2238, double-reciprocal plots show that the inhibition is competitive with a Ki of 61 microM and a Km of 1.72 microM. Aprotinin was a potent inhibitor of thrombin-induced aggregation. A Schild plot of the aggregation data yielded a slope of 0.97 +/- 0.12 and an apparent dissociation constant of 57.0 +/- 13.1 microM (mean +/- SEM). Thus, the inhibition of thrombin-induced platelet aggregation by aprotinin fits a model of competitive inhibition. Conclusions are that, in addition to a possible direct effect of aprotinin on platelets, the inhibition of thrombin-induced platelet activation by aprotinin can be also explained, in part, by a direct effect of the inhibitor on the thrombin molecule itself. This supports the concept that a proteolytic step is involved in the platelet response to thrombin. Finally, evidence is in favour of the participation of Trp245 in the fluorescence response of thrombin on binding to aprotinin.
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PMID:Aprotinin can inhibit the proteolytic activity of thrombin. A fluorescence and an enzymatic study. 137 6

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

The effect of inhibition of factor XIIIa with 2-(l-acetonylthio)-5-methylthiazolo[2,3-b]1,3,4-thiadiazo lium perchlorate (L-722,151) on coronary thrombolysis and reocclusion was studied in an acute dog model of electrically induced coronary thrombosis. L-722,151 (0.1 mg/kg/min intravenously [IV] or placebo was administered 15 minutes before current initiation (150 microA) and for the duration of the experiment (270 minutes). Fifteen minutes after thrombus formation, heparin (300 U/kg, IV) was administered, followed 45 minutes later by recombinant tissue-type plasminogen activator (tPA) (10 micrograms/kg/min, IV for 90 minutes). Placebo-treated animals thrombosed at 48.9 +/- 8.1 minutes (mean +/- SEM) and reperfused in response to tPA at 49.1 +/- 9.3 minutes. L-722,151 pretreated animals thrombosed at 44.4 +/- 9.7 minutes and reperfused in response to tPA at 16.4 +/- 2.8 minutes (P less than .05 v vehicle). Furthermore, residual thrombus mass was reduced by L-722,151 from 6.9 +/- 1.9 mg in placebo-treated animals to 1.7 +/- 0.6 mg (P less than .05 v vehicle). Acute reocclusion occurred in 86% of placebo and in 75% of L-722,151-treated animals. The incidence of tPA-induced reperfusion in L-722,151-treated dogs was 100% (8 of 8), whereas only 70% (7 of 10) of placebo-treated dogs reperfused. These results demonstrate that pretreatment with L-722,151 hastens reperfusion time threefold and reduces residual thrombus mass. These effects occurred with no change in systemic blood pressure in response to L-722,151. When L-722,151 was administered 15 minutes after thrombus formation in a separate group of dogs (n = 5), no beneficial effect on thrombolysis time or thrombus mass was observed. Thus, the specific factor XIIIa catalyzed crosslinking reaction(s), which may determine(s) resistance to plasmin-mediated fibrin degradation, occur(s) rapidly. Inhibition of this crosslinking by pretreatment with L-722,151 promotes tPA-induced thrombolysis.
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PMID:Inhibition of factor XIIIa in a canine model of coronary thrombosis: effect on reperfusion and acute reocclusion after recombinant tissue-type plasminogen activator. 196 93

The concentrations of plasmin and epidermal growth factor were determined in tear fluid (TF) samples from wearers of different types of contact lenses (CLs) during and after cessation of CL wear (CLW). TF samples of 50 healthy eyes served as controls. The plasmin concentrations in the control group (0.4 +/- 0.1 microgram/ml; mean +/- SEM) were significantly lower (p less than 0.001) than in the group of soft CL (SCL) wearers during CLW (1.2 +/- 0.2 microgram/ml). Cessation of CLW led to a decrease in TF plasmin concentrations from 1.2 +/- 0.2 to 0.6 +/- 0.1 micrograms/ml in the group of SCL wearers (p less than 0.001), from 1.5 +/- 1.1 to 0.3 +/- 0.2 micrograms/ml in the group of extended-wear SCL wearers (p greater than 0.05) and from 0.4 +/- 0.3 to 0.0 +/- 0.0 microgram/ml in the group of gas-permeable CL wearers (p greater than 0.05). After CLW cessation, TF plasmin levels of CL wearers did not differ from those of controls. The occurrence of plasmin in TF was associated with a higher degree of corneal neovascularization and with the presence of limbal injection. The concentrations of epidermal growth factor in TF were not significantly altered by the discontinuation of CLW.
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PMID:Plasmin and epidermal growth factor in the tear fluid of contact-lens wearers: effect of wearing different types of contact lenses and association with clinical findings. 215 Sep 79

Plasmin can degrade fibronectin and laminin, two important components of the extracellular matrix facilitating cell sliding and healing following a wound. In this study we investigated the relationship between the tear fluid level of plasmin and plasminogen activator and the healing of a corneal wound. Anterior keratectomy (AKE) was performed for seven rabbits (11 eyes). Eight eyes were rewounded after re-epithelialization. Tear fluid samples were collected with capillaries before wounding and during wound healing. Plasmin and plasminogen activator (PA) activities were determined using radial caseinolysis procedures. After AKE the plasmin concentrations increased rapidly, from a mean (+/- SEM) of 3.9 +/- 0.9 micrograms/ml to a mean of 37.9 +/- 7.8 micrograms/ml (p less than 0.01), and decreased during wound healing. Rewounding also resulted in an increase in plasmin concentration in the tear fluid (from a mean of 2.9 +/- 0.6 micrograms/ml to a mean of 5.0 +/- 1.1 micrograms/ml; p greater than 0.05). The PA activity showed an inverse trend as it decreased after AKE from a mean of 2.0 +/- 0.6 IU/ml to a mean of 0.3 +/- 0.1 IU/ml (p less than 0.001). During wound healing and re-epithelialization, the PA activity increased again, to 2.1 +/- 0.3 IU/ml (p less than 0.001). Abrasion of the newly grown epithelium in eight eyes caused a second elevation of PA activity which was not significant. This study demonstrates a close association between the healing of corneal wounds and changes in the plasmin and PA activities in tear fluid. Determination of the activity of these enzymes may therefore be useful for monitoring corneal wound healing.
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PMID:Plasmin and plasminogen activator activities in tear fluid during corneal wound healing after anterior keratectomy. 253 68

Development of appropriate clinical dose regimens of individual plasminogen activators such as tissue-type plasminogen activator (t-PA) has generally relied primarily on nonpharmacological endpoints such as angiographically documented clot lysis. The recent availability of monoclonal antibodies that differentiate products of plasmin lysis of fibrin from those of lysis of fibrinogen should permit delineation of the relative fibrin specificity of different plasminogen activators or of different doses of the same activator in vivo. Thus, their use should accelerate and facilitate development of implementation of optimal dose regimens for diverse activators and combinations of activators. The present study was designed to determine whether assay of such markers effectively differentiates effects of two doses of t-PA, each of which are comparably effective in opening infarct-related arteries, in patients studied at the Washington University Clinical Unit of the National Institutes of Health-sponsored Thrombolysis in Myocardial Infarction Trial. The extent of lysis of fibrin and of lysis of fibrinogen by plasmin resulting from administration of t-PA was evaluated in 19 patients given 150 mg t-PA over 6 hours and 17 given 100 mg over the same interval by assay of serially obtained plasma samples for crosslinked fibrin degradation products (XL-FDP) and B beta 1-42, a peptide released when fibrinogen is degraded to fragment X by plasmin. XL-FDP were markedly elevated after 6-hour infusions of both doses of t-PA. However, elevations were not more with the higher dose [peak value, 4,321 +/- 986 ng/ml (+/- SEM)] compared with the lower dose (3,397 +/- 1,096 ng/ml) (p = NS).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization in vivo of the fibrin specificity of activators of the fibrinolytic system. 313 54

A new method to determine plasmaprokallikrein independently of its inhibitors is described. By ion exchange chromatography with DEAE-A-50 Sephadex plasmaprokallikrein can be separated from its inhibitors Cl-esterase inhibitor, alpha 2-macroglobulin, alpha 1-antitrypsin (protease inhibitor) and antithrombin III as well as from other enzymes like plasmin, Hagemann factor and glandular kallikrein, which can interfere with the chromogenic substrate of the amidolytic assay (S 2302) used to determine plasmakallikrein activity. Furthermore, this method also allows the measurement of plasmaprokallikrein in heparinized plasma, since heparin was separated by this chromatography technique from plasmaprokallikrein too. The enzymatic activity of activated plasmakallikrein was not changed by the ion exchange chromatography. Normal values of the plasmaprokallikrein content in plasma were in the range of 2.57 +/- 0.12 U/ml of plasma (n:42; X +/- SEM). No influence on plasmaprokallikrein activity of age and sex was found.
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PMID:Measurement of plasma prokallikrein independent of inhibitors and interfering enzymes. 364 44

Although the biological function of histidine-rich glycoprotein (HRG) is unknown, it may serve as an antifibrinolytic agent by interfering with the binding of plasminogen to fibrin. To define the role of HRG, plasma titers were measured by single radial immunodiffusion in eleven patients with thromboembolism before and after streptokinase (SK) therapy and were found unchanged (84.7 +/- 6.2%, M +/- SEM before, and 99.5 +/- 6.3% after 12 hr of SK therapy). The HRG peaks on crossed immunoelectrophoresis before and after SK infusion were also unchanged. Alpha 2-plasmin inhibitor fell during SK infusion as measured immunologically (102.0 +/- 15.0% before and 28.0 +/- 1.6% after 12 hr of therapy) and fibrinogen-fibrin degradative products appeared (mean titer of 1:2,048 after 12 hr of therapy), indicating that the infused SK was biologically active. Plasminogen levels before therapy were normal, as measured functionally and immunologically (105.4 +/- 4.9% and 96.0 +/- 5.6%, respectively), and both decreased after 12 hr of SK therapy (15.2 +/- 5.6% and 50.8 +/- 4.3%). No changes in functional antithrombin III titer, Hageman factor antigen level, or fibrinogen concentration, as measured turbidimetrically, were observed. Thus, although these data do not allow one to make any firm conclusions regarding the physiologic role of this protein in fibrinolysis, they do not exclude its increased catabolism, compensated by increased production, in patients undergoing fibrinolytic therapy.
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PMID:Histidine-rich glycoprotein and changes in the components of the fibrinolytic system after streptokinase therapy in patients with pulmonary thromboembolism. 401 25


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