Acid-stable trypsin-plasmin inhibitors formed enzymatically from plasma precursor protein

Enzymatic formation of acid-stable trypsin-plasmin inhibitors (ASTPIs) in human plasma with several proteinases, particularly SH-proteinases, was demonstrated. The maximal activity obtained with bromelain was 40 U/ml plasma, which corresponded to about a 10-fold increase as compared to the untreated control plasma (4.2 U/ml). Gel filtration revealed at least two ASTPI activity peaks of molecular weight 16,000 (main peak) and 8000 (minor peak). The main ASTPI was further purified by trypsin-Sepharose affinity chromatography, isoelectric focusing and gel filtration on Sephadex G-75 superfine. The purified inhibitor was found to be identical to the active fragment of plasma ASTPI or urinary trypsin inhibitor (UTI) formed by bromelain treatment. It had an isoelectric point (pI) of 3.7, a molecular weight of 16,000 by SDS-polyacrylamide gel electrophoresis and was a glycine- and glutamic acid-rich protein lacking histidine. The NH2-terminal amino acid sequence was H2N-(Lys)-Glu-Asp-Ser-X-Gln-Leu-Gly-Tyr-Ser-Ala-Gly-Pro-X-Met-Gly-Met-Th r-X-Arg - Tyr-Phe-Tyr-... COOH, which was homologous to the Lys22-Met36 part (or Glu23-Met36 part; 30% of the total) of the plasma ASTPI or UTI molecule (molecular weight 70,000-80,000 by gel filtration). The purified ASTPI displayed the same antigenicity as UTI and exerted strong inhibitory effects on trypsin, chymotrypsin and plasmin amidolysis, but had a much lesser effect on plasmin fibrinolysis. It also strongly inhibited non-plasmic fibrinolysis with human leukocyte proteinase and earthworm proteinase.     

Trypsin inhibitors in human urine (author's transl)

By using ammonium sulfate, Arg-Sepharose and gel filtration, an urinary trypsin inhibitor (UTI) with molecular weight of 67,000 (UTI7) was isolated from normal human urine. The yield of UTI7 was about 3,200 U per liter of urine. When urine was acidified, an uropepsin-like substance was activated which caused molecular weight change of UTI7. New UTIs had molecular weight of 45,000 and 22,000 (UTI4-5 and UTI-2-2), respectively. These inhibitors showed a strong effect on trypsin, alpha--chymotrypsin and lesser extent on plasmin and elastase, but had no effect on esterolytic activity on thrombin and the first components of complement Cls an Clr.     

A new inhibitor of plasmin and trypsin from porcine leukocytes.

A new intracellular inhibitor of plasmin and trypsin was isolated from porcine leukocytes by ion exchange chromatography and affinity chromatography. In dodecyl sulphate gel electrophoresis a single protein band with an apparent molecular mass of 15 kDa was found under reducing conditions. On isoelectric focusing three protein bands with isoelectric points between pH 4.0 and 4.5 were found. The association rate constants and the inhibition constants were determined for porcine plasmin and bovine trypsin. The inhibitor shows no immunologic cross-reactivity with any of the tested leukocyte inhibitors. On the basis of its N-terminal amino-acid sequence a great degree of similarity to Kunitz-type inhibitors was observed.     

The effect of the glycosaminoglycan chain removal on some properties of the human urinary trypsin inhibitor

The major urinary trypsin inhibitor UTI I is a proteoglycan. UTI c (Mr 26,000), produced by chrondroitin lyase digestion of UTI I, was isolated and characterized. About 90% of the glycosaminoglycan chain was removed by this treatment without proteolytic modification, as assessed by amino-acid composition and N-terminal sequence of UTI c. Its electrophoretic mobilities on alkaline and SDS-PAGE are identical with those of UTI II which occurs in urine during storage. To study the role of the glycosaminoglycan chain on the inhibitory properties of UTI I, UTI I and UTI c were compared using different proteinases as target enzymes. The inhibitory activity towards bovine trypsin and chymotrypsin as well as human granulocytic cathepsin G did not differ significantly. However, towards human granulocytic elastase, the equilibrium dissociation constant (Ki) is 5 times higher for UTI c than for UTI I. Weak inhibitory activities were measured on human plasmin, UTI c being more efficient than UTI I. The acid-stability of UTI I is not modified after chrondroitin lyase treatment. UTI I and UTI c are equally sensitive to trypsinolysis indicating that the covalently bound glycosaminoglycan chain does not play an important role for the stability of UTI I.     

Human tissue kallikrein. I. Isolation and characterization of human pancreatic kallikrein from duodenal juice

Human pancreatic kallikrein was purified from duodenal juice by ion exchange chromatography on DEAE-Sepharose and immunoaffinity chromatography. Thus, an enzyme preparation with a specific activity (using Ac-Phe-Arg-OEt as substrate) of 1 000 U/mg protein was obtained. A specific biological activity of 1310 KE/mg protein was measured in the dog blood pressure assay and of 0.361 HMW kininogen-U/mg, corresponding to the liberation of 383 micrograms bradykinin-equivalents per mg enzyme per min from HMW kininogen in the rat uterus assay. In dodecyl sulfate gel electrophoresis one protein band corresponding to a molecular mass of 27 kDa was obtained. Using gel filtration on Ultrogel AcA-44 a molecular mass of 40 kDa was measured. The amino-acid composition was determined and isoleucine and alanine were identified as the only N-terminal amino-acid residues. On isoelectric focusing four protein bands with isoelectric points of 5.60, 5.65, 5.70 and 5.85 were separated. The bimolecular velocity constant for the inhibition by diisopropyl fluoro phosphate was determined as 10.5 l x mol-1 x min-1. The dissociation constant Ki of the human pancreatic kallikrein-aprotinin complex was calculated to be 1.5 x 10(-10)M. The kinetic constants for the kallikrein-catalysed hydrolysis of Ac-Phe-Arg-OEt and D Val-Leu-Arg-Nan were determined. Immunological studies showed a close relationship between the human pancreatic kallikrein and other human tissue kallikreins, especially with human urinary kallikrein. Detergents such as Triton X-100, Tween 20 and lysolecithin, as well as human serum albumin, activated the human pancreatic kallikrein preparation.     

Identification of anti-plasmin antibodies in the antiphospholipid syndrome that inhibit degradation of fibrin

The combined presence of anti-phospholipid Ab (aPL) and thrombosis is recognized as the antiphospholipid syndrome (APS). The aPL represent a heterogeneous group of Ab that recognize various phospholipids (PL), PL-binding plasma proteins, and/or PL-protein complexes. Recently, we found the presence of antithrombin Ab in some APS patients and that some of these anti-thrombin Ab could inhibit thrombin inactivation by antithrombin. Considering that thrombin is homologous to plasmin, which dissolves fibrin, we hypothesize that some APS patients may have Ab that react with plasmin, and that some anti-plasmin Ab may interfere with the plasmin-mediated lysis of fibrin clots. To test this hypothesis, we searched for anti-plasmin Ab in APS patients and then studied those found for their effects on the fibrinolytic pathway. The results revealed that seven of 25 (28%) APS patients have IgG anti-plasmin Ab (using the mean OD plus 3 SD of 20 normal controls as the cutoff) and that six of six patient-derived IgG anti-thrombin mAb bind to plasmin with relative K(d) values ranging from 5.6 x 10(-8) to 1 x 10(-6) M. These K(d) values probably represent affinities in the higher ranges known for human IgG autoantibodies against protein autoantigens. Of these mAb, one could reduce the plasmin-mediated lysis of fibrin clots. These findings suggest that plasmin may be an important driving Ag for some aPL B cells in APS patients, and that the induced anti-plasmin Ab may act either directly, by binding to plasmin and inhibiting its fibrinolytic activity, or indirectly, by cross-reacting with other homologous proteins in the coagulation cascade to promote thrombosis.     

Isolation and characterization of human urinary kallikrein

Human urinary kallikrein was purified by gel filtration on Sephacryl S-200 and affinity chromatography on aprotinin-Sepharose, followed by ion exchange chromatography on DEAE-Sepharose. Thus an enzyme preparation with a specific activity (using AcPheArgOEt as substrate) of 1 100 U/mg protein was obtained. A specific bioligical activity of 2 300 KE/mg was measured in the dog blood pressure assay and of 0.742 HMW kininogen-U/mg, corresponding to the liberation of 787 micrograms bradykinin per mg enzyme per min from HMW-kininogen, in the rat uterus assay. In dodecyl sulfate electrophoresis two protein bands with apparent molecular weights of 41 000 and 34 000 were separated. The amino acid composition was determined and isoleucine was identified as the only aminoterminal amino acid. On isoelectric focusing six protein bands with isoelectric points of 3.75, 3.80, 3.90, 4.00, 4.05 and 4.25 were separated. The kinetic constants for the kallikrein-catalyzed hyrdolysis of AcPheArgOEt and D ValLeuArgNHNp were determined. The bimolecular velocity constant for the inhibition by diisopropyl fluorophosphate was determined as 9 +/- 2l x mol-1 x min-1. Immunological studies showed that a close relationship exists between the urinary enzyme and other human glandular kallikreins. Deoxycholate, lysolecithin and other amphiphiles activated human urinary kallikrein.     

Multiple forms of human renin. Purification and characterization.

Human renin was purified from a juxtaglomerular cell tumor with a high renin content, 24.2 Goldblatt units/mg of protein. The purification procedure comprised three steps: gel filtration, DEAE-cellulose chromatography, and preparative isoelectric focusing. Five forms of renin amounting to 5.3 mg of enzyme were obtained with isoelectric points of 4.95, 5.10, 5.35, 5.55, and 5.70. They were all glycoproteins. The three major fractions had very similar specific activities, 868, 860, and 809 Goldblatt units/mg of protein. These fractions produced a single band on analytical isoelectric focusing and a single arc on immunoelectrophoresis. On polyacrylamide gel electrophoresis at pH 7.8, each fraction consisted of two renin bands with the same molecular weight, but different net charges. The molecular weight determined by gel filtration and Fergusson plot analysis on polyacrylamide gel was 38,000 to 42,000. The optimum pH determined on N-acetyltetradecapeptide substrate was 6.5, and the Km was 6.8 x 10(-6) M. These parameters were identical with those for standard human kidney renin. Antibodies raised against tumor renin completely inhibited the activity of both tumor and standard renin. Under dissociating conditions (sodium dodecyl sulfate-polyacrylamide gel electrophoresis and gel electrophoresis in the presence of 6 M urea), part of the purified enzyme dissociated into two smaller fragments (Mr = 20,000 and 25,000) containing renin activity.     

Purification and characterization of a dimethoate-degrading enzyme of Aspergillus niger ZHY256, isolated from sewage

A dimethoate-degrading enzyme from Aspergillus niger ZHY256 was purified to homogeneity with a specific activity of 227.6 U/mg of protein. The molecular mass of the purified enzyme was estimated to be 66 kDa by gel filtration and 67 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The isoelectric point was found to be 5.4, and the enzyme activity was optimal at 50 degrees C and pH 7.0. The activity was inhibited by most of the metal ions and reagents, while it was induced by Cu(2+). The Michaelis constant (K(m)) and V(max) for dimethoate were 1.25 mM and 292 micromol min(-1) mg of protein(-1), respectively.     

Alpha and beta-fibrinogenases from Trimeresurus gramineus snake venom.

By means of DEAE-Sephadex A-50 Column chromatography, Trimeresurus gramineus venom was separated into twelve fractions. The fibrinogenolytic activities were distributed in Fractions 1 and 10. These enzymes were further purified by gel filtration and were homogeneous as judged by cellulose acetate membrane, sodium dodecyl sulfate polyacrylamide gel electrophoresis and ultracentrifugal analysis. Both of them were single peptide chains. The sedimentation constants of alpha- (Fraction 1) and beta-fibrinogenases (Fraction 10) were 2.20 and 3.60, respectively. The molecular weights of alpha- and beta-fibrinogenases were 23 500 and 25 000 respectively. The contents of proline and glycine were higher in beta-fibrinogenase than in alpha-fibrinogenase. The isoelectric points of alpha-fibrinogenase and beta-fibrinogenase were pH greater than 10 and 4.5, respectively. The optimal pH of alpha-fibrinogenase was approx. 7.4 and that of beta-fibrinogenase was approx. 9.0. The activity of alpha-fibrinogenase was completely destroyed after 30 min at 60 degrees C, pH 5.4, 7.4 and 9.0, while that of beta-fibrinogenase was much less affected by the same treatment. The specific fibrinogenolytic activity alpha-fibrinogenase was 31 mg fibrinogen/min per mg protein, while that of beta-fibrinogenase was 9 mg fibrinogen/min per mg protein. alpha-Fibrinogenase cleaved specifically the alpha(A) chain of monomeric fibrinogen without cleaving the beta(B) chain and gamma-chain. beta-fibrinogenase preferentially cleaved the beta(B) chain, and the alpha(A) chain was also partially cleaved by beta-fibrinogenase, if the incubation time was prolonged. Both enzymes showed proteolytic activities toward fibrinogen, fibrin and casein, but were devoid of phospholipase A, alkaline phosphomonoesterase and phosphodiesterase activities found in the crude venom. The tosyl-L-arginine methylester esterase activity of beta-fibrinogenase was about 14 times that of crude venom, while alpha-fibrinogenase was completely devoid of this activity. The fibrinogenolytic activity of alpha-fibrinogenase was markedly inhibited by EDTA and cysteine, while that of beta-fibrinogenase was inhibited markedly by phenylmethanesulfonylfluoride. alpha- and beta-fibrinogenases exert their fibrinogenolytic activity by a direct action on fibrinogen or fibrin without activation of plasminogen.     

Purification and properties of plasminogen activator from human blood plasma after sudden death]

Plasminogen activator from human blood plasma after sudden death was isolated and purified 60-90-fold by precipitation with ammonium sulfate, ZnSO4 and ethanol as well as by chromatography on DEAE-Sephadex A-50 and gel--filtration through Sephadex G-200. The resulting enzyme had specific activity of 110-210 units per mg of protein. The enzyme prepartion possessed no plasmin activity; total content of carbohydrates was 2.4-2.5%; that of syalic acids--1.2-1.3%. The enzyme was found heterogeneous during disc electrophoresis in 7.0% polyacrylamide gel and corresponded in its mobility to beta-globulins of blood plasma. Molecular weight of enzyme as determined by gel-filtration through Sephadex G-200 is 70000. The isoelectric point lies at pH 6.2.     

Purification of human copper, zinc superoxide dismutase by copper chelate affinity chromatography

Copper, zinc superoxide dismutase was isolated from human red blood cell hemolysate by DEAE-Sepharose and copper chelate affinity chromatography. Enzyme preparations had specific activities ranging from 3400 to 3800 U/mg and recoveries were approximately 60% of the enzyme activity in the lysate. Copper chelate affinity chromatography resulted in a purification factor of about 60-fold. The homogeneity of the superoxide dismutase preparation was analyzed by sodium dodecyl sulfate-gel electrophoresis, analytical gel filtration chromatography, and isoelectric focusing.     

The primary inhibitor of plasmin in human plasma.

A complex between plasmin and an inhibitor was isolated by affinity chromatography from urokinase-activated human plasma. The complex did not react with antibodies against any of the known proteinase inhibitors in plasma. A rabbit antiserum against the complex was produced. It contained antibodies agianst plasminogen+plasmin and an alpha2 protein. By crossed immunoelectrophoresis the alpha2 protein was shown to form a complex with plasmin, when generated by urokinase in plasma, and with purified plasmin. The alpha2 protein was eluted by Sephadex G-200 gel filtration with KD approx. 0.35, different from the other inhibitors of plasmin in plasma, and corresponding to an apparent relative molecular mass (Mr) of about 75000. By sodium dodecyl sulphate/polyacrylamide-gel electrophoresis, the Mr of the complex was found to be approx. 130000. After reduction of the complex two main bands of protein were observed, with Mr, about 72000 and 66000, probably representing an acyl-enzyme complex of plasmin-light chain and inhibitor-heavy chain, and a plasmin-heavy chain. A weak band with Mr 9000 was possibly an inhibitor-light chain. The inhibitor was partially purified and used to titrate purified plasmin of known active-site concentration. The inhibitor bound plasmin rapidly and strongly. Assuming an equimolar combining ratio, the concentration of active inhibitor in normal human plasma was estimated to be 1.1 mumol/1. A fraction about 0.3 of the antigenic inhibitor protein appeared to be functionally inactive. In plasma, plasmin is primarily bound to the inhibitor. Only after its saturation does lysis of fibrinogen and fibrin occur and a complex between plasmin and alpha2 macroglobulin appear.     

Isolation and characterization of alpha2-plasmin inhibitor from human plasma. A novel proteinase inhibitor which inhibits activator-induced clot lysis.

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.     

Kunitz-type inhibitors in human serum. Identification and characterization

Human serum contains small amounts (approximately 0.1 mg/liter) of two protein protease inhibitors of low molecular weight (approximately 6500) and basic isoelectric point (Kunitz-type). They were purified by affinity chromatography on immobilized trypsin and ion-exchange chromatography in the fast protein liquid chromatography system. Their chemical, immunochemical, and functional properties indicate that the purified inhibitors are highly homologous with the basic pancreatic trypsin inhibitor which is widely distributed in bovids and caprids. Their inhibitory activity toward serine proteases such as plasmin and kallikrein suggests a possible regulatory role in blood clotting and fibrinolysis.     

Purified guanylate cyclase: characterization, iodination and preparation of monoclonal antibodies

Guanylate cyclase was purified from the soluble fraction of rat lung using a modification of procedures published previously. The purified enzyme exhibited specific activities, at pH 7.6, of 219-438 nmoles/mg protein/min and 34-60 nmoles/mg protein/min with Mn2+ and Mg2+ as cation cofactors, respectively. The specific activity changed as a function of the protein concentration due to a change in Vmax with no alteration of the Km for GTP. The enzyme migrated as a single band coincident wih guanylate cyclase activity on nondenaturing polyacrylamide and isoelectric focusing gels (isoelectric point = 5.9). Purified guanylate cyclase had an apparent molecular weight of 150,000 daltons as determined by gel filtration chromatography and polyacrylamide gel electrophoresis. Electrophoresis in the presence of sodium dodecyl sulfate revealed a single subunit of 72,000 daltons, suggesting that the enzyme is a dimer of an identical subunit. The purified enzyme could be activated by nitric oxide, indicating that this compound interacts directly with the enzyme.     

Plasmin cleaves human beta-casein

Plasmin cleaves isolated human beta-casein to form specific fragments in a manner similar to the generation of gamma 1-, gamma 2-, and gamma 3-caseins from the bovine homologue. Identification of a protein previously isolated from human milk as a specific plasmin cleaved portion of beta-casein indicates that endogenous plasmin is active in whole milk. These findings suggest that protease activity should be considered in casein quantitation or isolation of components from human milk.     

Characterization of deglycosylated human urinary colony-stimulating factor (CSF-1)

1. Isolation of CSF-1 from human urine was performed through five purification steps. These include concentration by dialysis, silica gel absorption, hydrophobic chromatography and phenyl-Sepharose CL-6B, Fast Protein Liquid Chromatography (FPLC) and finally preparative electrophoresis on polyacrylamide gels. These methods have been reported in a previous paper (Tao et al., 1987). 2. The isolated CSF-1 which exhibits a one band pattern on SDS-PAGE under non-reducing conditions after Coomassie Blue and silver stainings. CSF-1 was purified 100,000-fold and has a specific activity of 2.16 x 10(7) units/mg protein. Its apparent Mr is 57,000 with an isoelectric point pI = 5.8-6.0 CSF-1 is a glycoprotein with 40% of carbohydrate (w/w). 3. An almost complete removal of the carbohydrate moiety from CSF-1 was obtained after treatment with trifluoromethanesulfonic (TFMS) acid followed by gel filtration on Sephadex G-25 (Fine). The deglycosylated (DG) CSF-1 possesses an apparent Mr of 38,000 and an isoelectric point, pI: 6.2 as compared to native-CSF-1 (N-CSF-1), Mr = 57,000 and pI = 5.8 respectively. 4. The TFMS treatment did not alter the activities of CSF-1 as shown by biological assay and receptor binding assay. The thermostability experiment revealed that DG-CSF-1 was less stable than N-CSF-1. The circular dichroism spectra (CD) of N-CSF-1 and DG-CSF-1 were different. 5. The features of interaction of iodinated-N-CSF-1 and iodinated-DG-CSF-1 with single cell suspensions from human peritoneal macrophage were studied. The binding activity of peritoneal macrophage was the highest among all cells examined.(ABSTRACT TRUNCATED AT 250 WORDS)     

NADP+-dependent acetaldehyde dehydrogenase from Zymomonas mobilis

An NADP⁺-linked acetaldehyde dehydrogenase (EC 1.2.1.4) from the ethanol producing bacterium Zymomonas mobilis was purified 180-fold to homogeneity. The enzyme is a cytosolic protein with an isoelectric point of 8.0 and has an apparent molecular weight of 210000. It showed a single band in sodium dodecylsulfate gel electrophoresis with a molecular weight of 55000, which indicates that it consists of four probably identical subunits. The apparent K _m values for the substrate acetaldehyde were 57 M and for the cosubstrate NADP⁺ 579 M. The enzyme was almost inactive with NAD⁺ as cofactor. Several other aldehydes besides acetaldehyde were accepted as a substrate but not formaldehyde or trichloroacetaldehyde. In anaerobically grown cells of Zymomonas mobilis the enzyme showed a specific activity of 0.035 U/mg protein but its specific activity could be increased up to 0.132 U/mg protein by adding acetaldehyde to the medium during the exponential growth phase or up to 0.284 U/mg protein when cells were grown under aeration. The physiological role of the enzyme is discussed.Abbreviations ALD-DH acetaldehyde dehydrogenases from Z. mobilis - DTT dithiothreitol - MES 2-(N-morpholino)ethanesulfonic acid - MOPS 3-(N-morpholino)propanesulfonic acid - SDS sodium dodecylsulfate Dedicated to Prof. Dr. H.-G. Schlegel, Universität Göttingen, on the occasion of his 65th birthday     

The fibrinogenolytic activity of purified tryptase from human lung mast cells

The capacity of purified tryptase from human lung mast cells to metabolize human fibrinogen, fibrin, and plasminogen was evaluated. Tryptase (5 micrograms/ml) inactivated the thrombin-induced clotting activity of fibrinogen (100 micrograms/ml) with essentially similar t 1/2 values of 4.6 min in the absence of heparin and 5.8 min in the presence of heparin (20 micrograms/ml) that were not appreciably different than with lysine-Sepharose-purified plasmin (5 micrograms/ml). Fibrinogen treated with tryptase together with heparin lost all detectable clotting activity by 4 hr at 37 degrees C, whereas fibrinogen treated with tryptase alone resulted in destruction of only 80% of fibrinogen clotting equivalents after 16 hr. Tryptase alone was observed to cleave only the alpha-chains of fibrinogen by electrophoresis of tryptase-treated, denatured, and reduced fibrinogen in polyacrylamide gradient gels. Tryptase together with heparin cleaved first the alpha-chain and then the beta-chain, the latter cleavage corresponding to complete loss of fibrinogen clotting activity by 4 hr. No fibrinogen fragments with anticoagulant activity were generated by tryptase. In contrast, plasmin left no residual clotting activity after 4 hr of incubation and generated fibrinogen fragments with anticoagulant activity. Plasmin sequentially cleaved the alpha, beta, and gamma subunits of fibrinogen. Tryptase alone (6 micrograms/ml) or together with heparin (20 micrograms/ml) failed to activate plasminogen (0.6 mg/ml) after a 60-min incubation at 37 degrees C. Addition of urokinase to tryptase-treated or untreated plasminogen resulted in essentially identical plasmin activities (0.32 and 0.34 U/ml, respectively), indicating that tryptase neither activates nor destroys plasminogen. Tryptase (700 ng) also failed to substantially solubilize cross-linked fibrin (2.6 micrograms) or the corresponding amount of fibrinogen bound to plastic microtiter plates with or without heparin. The failure to solubilize fibrinogen and, possibly, fibrin is consistent with the observation that the apparent m.w. by SDS polyacrylamide gel electrophoresis of unreduced fibrinogen is not appreciably altered by prior treatment with tryptase, even though cleavage of alpha-and beta-chains is revealed after reduction. Fibrinogenolysis by tryptase complements other mast cell mediators with anticoagulant properties such as heparin and suggests a significant prevention of coagulation by activated mast cells.