Glutamicin CBII,a bacteriocin-like substance produced by

Corynebacterium glutamicum CBII, in the stationary phase of growth, was found to produce spontaneously a substance resembling bacteriocins by its bactericidal properties. This substance designated glutamicin CBII was observed to exhibit bactericidal activity against coryneform bacteria (12 species tested) but not against unrelated gram-positive (3) and gram-negative (3) bacteria, while its action on bacteria with no quite known relatedness to the coryneform group (14) was found to be variable. Glutamicin CBII was partially purified by precipitation with ammonium sulphate (70% saturation), selective heat precipitation and gel chromatography on Sepadex G-50. The antibacterial substance diffused through cellophane membrane with an approximate cut-off of 10000 dalton and its sedimentation coefficient was determined to be 1.1. S by ultracentrifugation. Heating at 100°C for 30 min had no effect on its activity. Glutamicin CBII was proved to be resistant to chloroform, trypsin, chymotrypsin, pronase, and subtilisin. According to its staining behaviour and ¹H NMR spectra it probably represents a glycoprotein containing only a minor protein component.

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Sulfatide prolongs blood-coagulation time and bleeding time by forming a complex with fibrinogen

Sulfatides (galactosylceramide I³-sulfate), which are found in serum lipoproteins of various mammals, effectively increased prothrombin time (anticoagulant effect) and also effectively prolonged bleeding time (anti-platelet effect). When equal volumes of a homogeneous micellar solution of sulfatide and fibrinogen in phosphate-buffered saline were mixed, an insoluble complex precipitated. Analysis of the precipitated complex showed that the molar ratio of sulfatide to fibrinogen was about 400:1. These results indicate that the sulfatide micelle binds tightly to fibrinogen and thereby interferes with both fibrin gel formation (anticoagulant activity) and platelet function.Abbreviations BSA bovine serum albumin - PBS phosphate-buffered saline - PT prothrombin time Dedicated to Dr Sen-itiroh Hakomori in celebration of his 65th birthday.     

THE PROTEIN ASSOCIATED WITH HEMOLYSIN IN RABBIT SERUM AND PLASMA

1. The water-insoluble globulin with which hemolysin is associated, may be separated from immune serum or plasma by dilution and simple dialysis at optimal pH. 2. This optimum in plasma is influenced by the presence of the fibrinogen. 3. Fibrinogen carries no immune body, or only an insignificant amount; when present in immune body solutions in other form than fibrin gel, it depresses the hemolytic activity. The conditions for the formation of fibrin gel are similar to those for the formation of a gel by banana protein. 4. The hemolytic activity is a more labile property of the immune protein than the agglutinating activity; hemolysin is destroyed, hemagglutinin shows an apparent increase, as a result of alcohol extraction.     

Hepatocyte-derived fibrinogen-related protein-1 is associated with the fibrin matrix of a plasma clot

In order to study the multiple functions of fibrinogen and fibrin, we are investigating which proteins bind to the fibrin matrix of a plasma clot by using a proteomic approach. Extracts from washed plasma clots were analysed by 2-D gel electrophoresis. A relatively abundant spot was identified as hepatocyte-derived fibrinogen-related protein-1 (HFREP-1) by MALDI-TOF analysis, molecular mass (34 kDa), iso-electric point (pI 5.5) as well as by Western blot analysis. HFREP-1 in plasma almost completely bound to the fibrin matrix during clot formation. Several purified fibrinogen preparations proved to be contaminated with HFREP-1. It is concluded that HFREP-1 (also named hepassocin), a protein with liver cell growth regulatory properties, occurs in plasma and strongly associates with fibrin and possibly fibrinogen.     

Simple Purification Method for a Vibrio vulnificus Hemolysin by a Hydrophobic Column Chromatography in the Presence of a Detergent

A Vibrio vulnificus hemolysin (VVH) was purified by two steps of hydrophobic column chromatography on Phenyl-Sepharose HP. The first chromatography was carried out at pH 6.0. In this pH condition, VVH efficiently bound to the column, but the hemolysin fraction eluted was accompanied with colored substance(s). To eliminate this colored substance, the second chromatography was carried out at pH 9.8 in the presence of 1% 3-[(3-cholamidopropyl) dimethylammonio]-1-propanesulfonate (CHAPS), a zwitterionic detergent. Homogeneity of the hemolysin thus obtained was shown by polyacrylamide gel electrophoresis. The specific activity increased 33, 600 times and the yield was 35%. The method is simple and useful to supply enough VVH for study of the role of the hemolysin in the infection by V. vulnificus or on the mechanism of action of the hemolysin.     

Different molecular forms of plasminogen and plasmin produced by urokinase in human plasma and their relation to protease inhibitors and lysis of fibrinogen and fibrin

Urokinase-activated human plasma was studied by gel electrophoresis, gel filtration, crossed immunoelectrophoresis and electroimmunoassay with specific antibodies and by assay of esterase and protease activity of isolated fractions. Urokinase induced the formation of different components with plasminogen+plasmin antigenicity. At low concentrations of urokinase, a component with a K(D) value of 0.18 by gel filtration and post beta(1) mobility by gel electrophoresis was detected. The isolated component had no enzyme or plasminogen activity. In this plasma sample fibrinogen was not degraded for 10h, but when fibrin was formed, by addition of thrombin, fibrin was quickly lysed, and simultaneously a component with a K(D) value of 0 and alpha(2) mobility appeared, which was probably plasmin in a complex with alpha(2) macroglobulin. This complex showed both esterase and protease activity. After gel filtration with lysine buffer of the clotted and lysed plasma another two components were observed with about the same K(D) value by gel filtration as plasminogen (0.35), but beta(1) and gamma mobilities by gel electrophoresis. They appeared to be modified plasminogen molecules, and possibly plasmin with gamma mobility. Similar processes occurred without fibrin at higher urokinase concentrations. Here a relatively slow degradation of fibrinogen was correlated to the appearance of the plasmin-alpha(2) macroglobulin complex. The fibrin surface appeared to catalyse the ultimate production of active plasmin with a subsequent preferential degradation of fibrin and the formation of a plasmin-alpha(2) macroglobulin complex. The gel filtration and electrophoresis of the plasma protease inhibitors, alpha(1) antitrypsin, inter-alpha-inhibitor, antithrombin III, and C(1)-esterase inhibitor indicated that any complex between plasmin and these inhibitors was completely dissociated. The beta(1) and post beta(1) components appear to lack correlates among components occurring in purified preparations of plasminogen and plasmin.     

Expression,Purification and Structural Analysis of a Fibrinogen Receptor FbsA from <Emphasis Type="Italic">Streptococcus agalactiae</Emphasis>

Streptococcus agalactiae is a leading cause of bacterial sepsis and meningitis in neonates. FbsA, a fibrinogen receptor of S. agalactiae is highly repetitive protein with each repeat containing 16 amino acids. The protein sequence of FbsA shows no homology to any known fibrinogen binding protein from other bacterial species, making it a unique fibrinogen receptor. FbsA is cloned, expressed in E. coli and purified. The recombinant protein shows a laddering pattern in SDS–PAGE gel because of its poor stability in solution. The instability of the protein is probably because of the presence Gln-Gly dipeptide in each repeat. The circular dichroism study of FbsA has shown that the protein is composed of alpha helices predominantly and random coils to a lesser extent, which agrees with the predicted secondary structure. Ab initio modeling of a single repeat shows that FbsA is made up of mainly alpha helix and the structural model of multiple repeats (3 or 4) suggests that the protein might adopt some form of a repeating helical structure and the overall conformation of the molecule might change depending on the number of repeats.     

Influence of glyco-oxidation on complexes between fibrin(ogen) and insulin-like growth factor-binding protein-1 in patients with diabetes mellitus type 2

Fibrinogen and insulin-like growth factor-binding protein-1 (IGFBP-1) are tightly connected to metabolic changes and complications in patients with diabetes mellitus (DM), and since they mutually interact to form complexes in plasma, we investigated whether and to what extent IGFBP-1/fibrinogen complexes change due to glyco-oxidative processes in DM and whether they participate in fibrin clot formation. These complexes were determined by immunoblotting in plasma samples from healthy adults and patients with DM type 2 (DM2). The influence of glyco-oxidation in vitro on the complexes was also investigated. Amounts of IGFBP-1/fibrinogen complexes in plasma from patients with DM2 were slightly but not significantly lower than in healthy persons. Such complexes in patients’ samples participated in fibrin clot formation to a significantly decreased extent. In vitro experiments with glucose or methylglyoxal (MGO) as reactive agents demonstrated that the complexes underwent glyco-oxidative modification leading to reduced formation and/or stability. Extensively oxidized fibrinogen almost completely lost its ability to bind IGFBP-1. The reduced affinity of fibrinogen for IGFBP-1 accompanying diabetes may potentially shift the equilibrium to liberate more IGFBP-1 (and possibly insulin-like growth factor (IGF)-I) able to activate platelets during coagulation, so contributing to the hypercoagulation state together with other factors. This hypothesis, however, needs further examination.     

Catalytic properties of a calmodulin-regulated transglutaminase from human platelet and chicken gizzard

The kinetic parameters and some enzymatic characteristics of human platelet and chicken gizzard transglutaminases were determined. Activity of the transglutaminases was regulated by calmodulin. These enzymes co-isolated with alpha-actinin and were dissociated from alpha-actinin by gel filtration and absorption onto a calmodulin affinity column. Silver-stained polyacrylamide gels showed that the protein peak eluted by EGTA from this column contained polypeptides of Mr approximately 58,000 and 63,000. The transglutaminases required Ca2+ for incorporation of monodansylcadaverine into casein and actin substrates. Activity was enhanced 3-fold by calmodulin with a biphasic effect, showing stimulation at 10-200 nM and inhibition at concentrations higher than 300 nM. In the presence of 200 nM calmodulin, half-maximal transglutaminase stimulation was obtained with 2.5 microM free [Ca2+]. Chlorpromazine inhibited calmodulin enhancement of the transglutaminases. Activity of the transglutaminases was independent of proteolytic activation, since inhibitors for Ca2+-dependent proteases failed to inhibit filamin cross-linking. For comparison, factor XIIa, a plasma and platelet transglutaminase, required both Ca2+ and thrombin for activation and was insensitive to calmodulin. The cross-linking pattern of fibrin, fibrin monomers, and fibrinogen by the calmodulin-regulated transglutaminases showed, by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, disappearance of fibrinogen alpha-chains with no decrease of beta- and gamma-chains or formation of gamma-gamma dimers. By autoradiography, cross-linked products of 125I-fibrinogen revealed heavily labeled high molecular weight polymers and polypeptides of Mr 98,000, 116,000, and 148,000; the latter appeared to be a transient species. However, when fibrin, fibrin monomers, and fibrinogen were used as factor XIIIa substrates, gamma-gamma dimers and alpha-polymers were formed. Formation of gamma-gamma dimers was slower with fibrinogen than with fibrin. Iodoacetamide blocked activity of factor XIIIa but not of the calmodulin-regulated transglutaminases.     

Effect of methylmercuric chloride (MMC) on fibrin polymerization

Methylmercuric chloride (MMC) in concentrations 0.1–10μM reduces the amount of fibrinopeptides released from thrombinactivated human fibrinogen. However, the fibrin clot formation is not discriminated and the turbidity of the fibrin gel is even augmented. MMC does not cause such changes in the process of repolymerization of fibrin monomers. The addition of fibrinopeptides to the fibrin monomers results in a similar increase of turbidity of the repolymerizing sample in the presence of MMC as in the case of fibrinogen clotting. These experiments indicate that MMC modifies the structure of fibrin in the presence of fibrinopeptides.     

Recombinant human fibrinogen expressed in the yeast Pichia pastoris was assembled and biologically active

Fibrinogen is a large plasma glycoprotein with a molecular mass of 340 kDa that plays a critical role in the final stage of blood coagulation. Human plasma fibrinogen is a dimeric molecule comprising two sets of three different polypeptides (Aα, 66 kDa; Bβ, 55 kDa; γ, 48 kDa). To express recombinant human fibrinogen in the methylotrophic yeast Pichia pastoris, we constructed an expression vector containing three individual fibrinogen chain cDNAs under the control of the mutated AOX2 (mAOX2) promoter. First, P. pastoris GTS115 was transformed with the vector, but the expressed recombinant fibrinogen suffered severe degradation by yeast-derived proteases under conventional nutrient culture conditions. Fibrinogen degradation was prevented by using the protease A-deficient strain SMD1168 as a host strain and regulating the pH of the culture to between 5.5 and 7.0. Western blot analysis revealed that the Aα, Bβ and γ chains of recombinant fibrinogen were assembled and secreted as a complete molecule. The Bβ chain of the recombinant fibrinogen was N-glycosylated but the Aα chain, as in plasma fibrinogen, was not. The γ chains however were heterologous, one being N-glycosylated and the other not. The recombinant fibrinogen was capable of forming a thrombin-induced clot in the presence of factor XIIIa and both the glycosylated and the non-glycosylated γ chains were involved in the formation of cross-linking fibrin. The present study indicates that the recombinant fibrinogen expressed in P. pastoris, although different from plasma fibrinogen in post-translational modification, is correctly assembled and biologically active.     

Purification and Characterization of a Fibrinogen-Degrading Protease in Bacteroides fragilis Strain YCH46

A novel fibrinogenolytic protease was purified from Bacteroides fragilis strain YCH46. The protease was extracted from cells by ultrasonic treatment and was purified 425-fold with a recovery of 2.1% by sequential procedures using azocasein as a substrate. The purified protease showed a single band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis with an estimated molecular weight of 100 kDa, which was consistent with the value obtained by gel filtration, indicating a monomeric native structure. Its optimal pH, K_m, and V_max for azocasein were 7.5, 0.2%, and 286 U/min/mg, respectively. The protease activity was completely inhibited by addition of 1 mM Hg²⁺, Cu²⁺, Zn²⁺, diisopropyl fluorophosphate, N-ethylmaleimide or p-chloromercuribenzoate but not by the inhibitors of metalloprotease or aspartic protease, suggesting that the enzyme is a serine-thiol-like protease. The protease hydrolyzed azocasein, casein, fibrinogen, gelatin, and azocoll, but not bovine serum albumin, ovalbumin, fibrin, fibronectin, immunoglobulins, transferrin, hemoglobin or types I, III, and IV collagen. The enzyme also hydrolyzed the chromogenic substrates alanyl-alanine p-nitroanilide, L -valyl-alanine p-nitroanilide, alanyl-alanyl-valyl-alanine p-nitroanilide, and glycyl-proline p-nitroanilide, but was inert toward L -alanine p-nitroanilide, alanyl-alanyl-alanine p-nitroanilide, and N-α-benzoyl-DL -arginine p-nitroanilide. The protease completely hydrolyzed the α-chain of fibrinogen at 37 C within 10 hr and at the same time the time required for clotting of protease-treated fibrinogen by thrombin was prolonged. The fibrinogenolytic activity of a crude extract of B. fragilis was stronger than that of other species of the Bacteroides fragilis group tested: B. ovatus, B. distasonis, B. eggerthii, B. uniformis, and B. thetaiotaomicron. These results suggest that the fibrinogenolytic protease is an important biological factor in Bacteroides infection.     

Purification and characterization of a fibrinogenase from the venom of Western Diamondback rattlesnake (Crotalus atrox)

A fibrinogenolytic enzyme was isolated from the venom of Western Diamondback rattlesnake (Crotalus atrox) by a three-step procedure involving gel filtration and anion-exchange chromatography. The molecular weight was estimated as 22 900 by SDS-polyacrylamide gel electrophoresis. The isoelectric point was found to be pH 4.65. The enzyme rapidly destroyed the ability of bovine fibrinogen to form a clot on incubation with thrombin. Incubation of fibrinogen with the fibrinogenolytic enzyme for 5 min resulted in the disappearance of the beta-chain of fibrinogen and the appearance of lower molecular weight fragments. Thus the enzyme can be classified as a beta-fibrinogenase. However, on prolonged incubation of the fibrinogen there was also a partial digestion of the alpha-chain. The fibrinogenase showed no activity towards fibrin or casein or arginine esters. The fibrinogenolytic activity was inhibited by phenylmethanesulphonyl fluoride (PMSF) but was unaffected by EDTA.     

A newly identified chemotactic sexual pheromone from Closterium ehrenbergii

 In sexual reproduction of Closterium ehrenbergii, pairing with the sexual partner cells is the first process observed. A cell migration-inducing activity, specific for mating-type plus (mt⁺; NIES-228) cells, was detected in the culture medium of mating-type minus (mt^–; NIES-229) cells. Light was necessary for production of the active substance by mt^– cells and for migration of mt⁺ cells. The active substance was heat-labile and had an apparent molecular mass of 20 kDa, as determined by gel filtration. A protein of 20 kDa was detected in the active fraction of gel filtration after sodium dodecyl sulfate polyacrylamide gel electrophoresis. Based on these results, it is proposed that a chemotactic sexual pheromone involved in the formation of sexual pairs of cells is secreted by mt^– cells of C. ehrenbergii and is proteinaceous, like other sexual pheromones secreted by Closterium species. Received: 31 July 1997 / Revision accepted: 25 November 1997     

Purification and partial characterization of a fibrinolytic enzyme from the fruiting body of the medicinal and edible mushroom Pleurotus ferulae

A fibrinolytic metalloprotease with in vitro fibrinolytic effects was purified from the edible mushroom Pleurotus ferulae using several chromatography steps including anion and ion exchange, gel filtration, and fast protein liquid chromatography columns. The molecular mass of the enzyme was estimated to be 20.0?kDa, as determined using sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fibrin zymography. The protease was active at 50°C, and pH 4.0, 5.0, and 8.0. The fibrinolytic activity of the enzyme was inhibited by ethyleneglycol-bis-(2-aminoethyl)-N,N,N′,N′ tetraacetic acid and strongly inhibited by two metal ions, Cu and Mg. In vitro assays evaluating fibrinolytic activity on a fibrin plate, fibrin turbidity, and thrombolytic activity on fibrin clots using human fibrinogen and human thrombin revealed that the enzyme could hydrolyze fibrin polymers directly and inhibit the formation of fibrin clots. In activated partial thromboplastin time (APTT) and prothrombin time assays, the enzyme strongly prolonged the APTT, which detects an activity of intrinsic and common pathways. The enzyme showed strong in vivo protective effect against mortality/paralysis from epinephrine plus collagen-induced acute thromboembolism in in vivo model. Our findings suggest that the enzyme may have a potential for treatment and prevention of thrombosis-relative diseases.     

Characterization of the inhibition of fibrin assembly by fibrinogen fragment D.

Fragment D (Mr 100 000) prepared from a terminal plasmin digest of fibrinogen was isolated and used to study its effect on fibrin formation. Increasing amounts of fragment D added to a solution of fibrinogen and thrombin decrease the rigidity of the resultant gel (10% of control at 2 mol of fragment D/mol of fibrinogen). Half-maximal inhibition is achieved at 1 mol of fragment D/mol of fibrinogen for non-cross-linked clots and at 1/2 mol of fragment D/mol of fibrinogen for cross-linked clots. "Clottability' decreases concomitantly with the rigidity. Only small amounts of fragment D (less than 10% for non-cross-linked gels) are incorporated into the gel. Light-scattering shows an increase in the final fibre thickness at fragment D concentrations up to 2 mol of fragment D/mol of fibrinogen, from 60 molecules/cross-section for the control to 120 molecules/cross-section. Higher fragment D concentrations lead to a decrease in the final fibre thickness. The limit fibre thickness is 8 nm, with a length of 80 nm, which is equivalent to a fibrin trimer. On the basis of results of synthetic-substrate and fibrinopeptide-release assays, it is clear that thrombin inactivation is not responsible for this effect. These data suggest that fragment D may inhibit fibrin formation by blocking the bimolecular polymerization of activated fibrin monomer molecules to form protofibrils, although additional effects on subsequent assembly steps may also be involved.     

Purification,Partial Characterizations,and N‐Terminal Amino Acid Sequence of a Procoagulant Protein FV‐2 from Daboia Russelli Siamensis (Myanmar) Venom

In this study, we purified and characterized the procoagulant protein FV‐2 from Daboia russelli siamensis (Myanmar) venom using ion‐exchange chromatography on CM‐Sephadex C‐50 and gel filtration on Superdex^TM G‐75 column. The activation of factor X and prothrombin was determined, respectively, by specific chromogenic substrates. The fibrinogen‐clotting activity, thermal stability, and pH stability were also determined. The N‐treminal sequence was determined by the National Center of Biomedical Analysis of China. In the end, FV‐2 was achieved with a molecular weight of 13,608.0 Da. It could activate factor X, but did not affect prothrombin or fibrinogen. The suitable pH was 6.5–7.5, and the suitable temperature ranged from 25 to 60°C. The N‐terminal sequence was Asn‐Phe‐Phe‐Gln‐Phe‐Ala‐Glu‐Met‐Ile‐Val‐Lys‐Met‐Thr‐Gly‐Lys. Taken together, our studies suggest that FV‐2 is a factor X–activating enzyme, which can activate factor X to factor Xa, but it has no effect on prothrombin and fibrinogen.     

A central role for intermolecular dityrosine cross-linking of fibrinogen in high molecular weight advanced oxidation protein product (AOPP) formation

Background

Advanced oxidation protein products (AOPPs) are dityrosine cross-linked and carbonyl-containing protein products formed by the reaction of plasma proteins with chlorinated oxidants, such as hypochlorous acid (HOCl). Most studies consider human serum albumin (HSA) as the main protein responsible for AOPP formation, although the molecular composition of AOPPs has not yet been elucidated. Here, we investigated the relative contribution of HSA and fibrinogen to generation of AOPPs.

Methods

AOPP formation was explored by SDS-PAGE, under both reducing and non-reducing conditions, as well as by analytical gel filtration HPLC coupled to fluorescence detection to determine dityrosine and pentosidine formation.

Results

Following exposure to different concentrations of HOCl, HSA resulted to be carbonylated but did not form dityrosine cross-linked high molecular weight aggregates. Differently, incubation of fibrinogen or HSA/fibrinogen mixtures with HOCl at concentrations higher than 150 μM induced the formation of pentosidine and high molecular weight (HMW)-AOPPs (> 200 kDa), resulting from intermolecular dityrosine cross-linking. Dityrosine fluorescence increased in parallel with increasing HMW-AOPP formation and increasing fibrinogen concentration in HSA/fibrinogen mixtures exposed to HOCl. This conclusion is corroborated by experiments where dityrosine fluorescence was measured in HOCl-treated human plasma samples containing physiological or supra-physiological fibrinogen concentrations or selectively depleted of fibrinogen, which highlighted that fibrinogen is responsible for the highest fluorescence from dityrosine.

Conclusions

A central role for intermolecular dityrosine cross-linking of fibrinogen in HMW-AOPP formation is shown.

General significance

These results highlight that oxidized fibrinogen, instead of HSA, is the key protein for intermolecular dityrosine formation in human plasma.     

Fruiting-inducing activity of cerebrosides observed with Schizophyllum commune

Isolation and identification of substances having an activity to stimulate the fruiting body formation of Schizophyllum commune were attempted. The active principles in its mycelia were divided into four fractions by sequential purification with silica gel column and reverse-phase HPLC column chromatography. By infrared spectra and thin-layer chromatography, the active substances in these four fractions were revealed as cerebrosides. About 0.1 μg of the cerebroside fractions showed a discriminative stimulating activity on S. commune when tested by the method these authors adopted. The active substance in the fraction II was N-2′-hydroxypalmitoyl-1-O-glucosyl-nonadecasphingadienine. The cerebrosides from pea seeds and Fusicoccum amygdali showed the similar activity on S. commune, but some commercial synthetic cerebrosides and cerebrosides from bovine and porcine brains exhibited no stimulating activity. Only definite cerebrosides with special structures seem to be able to induce the fruiting of S. commune.     

Characterization of a vasopressor substance generated in human plasma by incubation

Incubation of human plasma at 37 degrees C for several hours leads to the formation of a non-dialysable vasopressor substance termed the active pressor principle. Some of the chemical and physical natures of active pressor principle were investigated in anesthetized and ganglion blocked rats. It was found to have properties characteristic of protein. The substance was crudely purified to about 25-fold in alcoholic trichloroacetic acid solution after placing the plasma in a boiling water bath for 5 minutes ("active fraction"). After treatment of the vasoactive plasma or "active fraction" with Pronase, the pressor activity was almost abolished. The molecular weight of this fraction as determined by gel filtration was about 68,000. With addition of diisopropyl fluorophosphate before incubation of the plasma, no vasopressor substance was generated. After treatment of the rat with captopril, an angiotensin converting enzyme inhibitor, the pressor effect of incubated plasma was not inhibited. These findings suggest that a vasoactive protein, which is clearly different from renin, is generated during simple incubation of plasma, and that a serine protease is involved in the formation of this substance.