Production by fungi of the genera Aspergillus, Acremonium, Verticillium of extracellular proteases which coagulate blood plasma and lyse blood clots

Among 24 fungal strains belonging to the genera Aspergillus, Acremonium and Verticillium, eight strains synthesized proteases with the coagulating activity. The most active strains producing such proteases were found among Aspergillus species. The fibrinolytic activity was detected in 12 strains of the fungi. Proteases with the fibrinolytic activity differed in their sensitivity to plasma inhibitors and the least sensitive proteases were found in A. niger and A. flavus. Some fungal strains synthesized proteases with the fibrinolytic activity exerting an indirect action. Such enzymes activated the conversion of blood profibrinolysin into fibrinolysin in a manner similar to that of staphylokinase, urokinase and trypsin.     

Comparative study of proteolytic enzyme preparations of the actinomycete Streptomyces spheroides and its mutant

Preparations of proteolytic enzymes with high fibrinolytic and thrombolytic activities were isolated from the cultural broth filtrates of Streptomyces spheroides and its mutant by precipitation with ammonium sulfate, dialysis and freeze-drying. The fibrinolytic and thrombolytic activities of the enzymes produced by the mutant are 5.6 and 6 times higher, respectively, than those of the parent strain. Moreover, the enzymes of the mutant have an elevated stability in the alkaline pH region, the optimum of their activities is also shifted to the alkaline pH region, they are more resistant to the action of blood plasma inhibitors and more sensitive to the action of high temperatures. As was shown using isoelectric focusing in a sucrose density gradient, the preparations of both the parent and mutant strains contain several proteolytic enzymes (or their groups) with acid, neutral and alkaline isoelectric points.     

Effect of Influenza Virus Proteins Modulate Hemostasis in vitro and in vivo

We studied the effect of influenza virus proteins—hemagglutinin, neuraminidase, nucleoprotein, and membrane protein—on hemostasis in vitro and in vivo. The results demonstrated that envelope proteins hemagglutinin and neuraminidase enhanced the fibrinolytic and anticoagulant activities of blood plasma and the activity of human tissue plasminogen activator. The membrane protein proved to have the highest activity among the core proteins of influenza virus; in contrast to hemagglutinin and neuraminidase, it inhibited fibrinolysis, increased the coagulant activity of blood plasma, and decreased the activity of human tissue plasminogen activator. The combined action of hemagglutinin and neuraminidase increased the plasma fibrinolytic and anticoagulant activities to a greater extent than the individual action of each agent. The combined action of hemagglutinin and membrane protein also increased the plasma fibrinolytic and anticoagulant activities, although to a lesser extent than the action of hemagglutinin alone. These data indicate that viral proteins are physiologically active and can cause influenza-specific disturbances of hemostasis.     

Pancreatic and intestinal carbohydrases are matched to dietary starch level in wild passerine birds

Evolutionary shifts in diet composition are presumably accompanied by simultaneous changes in digestive physiology. The adaptive modulation hypothesis predicts that activities of digestive enzymes should match the relative levels of their substrates in an animal's diet so that available membrane space and synthetic energy are not wasted on enzymes in excess of need. However, previous studies on captive passerine birds showed high intraspecific phenotypic flexibility only in proteases but not in carbohydrases in response to varying diet composition. In this study, we measured the activities of pancreatic, intestinal, and hepatic enzymes in six wild-caught passerine species. We predicted that if the adaptive modulation hypothesis holds during evolutionary shifts in diet composition in birds, then mass-specific activities of digestive enzymes should be correlated positively with the content of their relevant substrates in species' diets. Whereas mass-specific activities of proteases (aminopeptidase-N, trypsin, chymotrypsin, alanine aminotransferase) were not correlated with estimated dietary protein content, mass-specific activities of all studied carbohydrases (amylase, maltase, sucrase) were positively correlated with estimated dietary starch content. We conclude that activities of carbohydrases but not proteases are evolutionarily matched to diet composition in passerine birds. We hypothesize that the need for nitrogen and essential amino acids can prevent the evolution of a low activity of proteases, even in species feeding on a low-protein diet.     

Effect of blood plasma inhibitors on activity of serine and cysteine proteinases]

Data on study of action plasma inhibitors on activity of pancreatic proteolytic enzymes (trypsin, chymotrypsin) and plant proteinases (papain, bromelain), included in composition of enzyme mixes, used for orally application are submitted. It is established, that serine proteases are more sensitive to inactivation of plasma inhibitors, than cysteine enzymes. Main inhibitor of the papain and bromelain is alpha-2-macroglobulin in complex with which they preserve significant part of initial activity. A high-sensitivity method of determination of activity enzyme combinations, enabling to detect nanograms of them in presence of plasma inhibitors is offered. It can be used for study pharmacokinetic and optimization of enzyme mixes application in clinical practice.     

Proteolytic enzymes in normal and transformed cells.

Virally transformed cells show an increased production of proteolytic enzymes. These might be involved in transformation-dependent alterations of cell surface glycoproteins. The possibility arises that some of these proteases might be membrane-bound. To investigate this possibility, we have undertaken a comparative study of the reactivity of intact normal and transformed cells with the tritium labelled protease inhibitor diisopropylfluorophosphate, in parallel with fibrinolytic assays. Using these two approaches in concert, it was possible to identify and localize in the transformed cells several proteases which were present in the particulate cell fraction and were probably membrane bound. In particular, a diisopropylfluorophosphate-reactive polypeptide of 62,000 was increased 5--8-fold on transformation. It comigrated with a fibrinolytic activity. Other particle-bound activities were also detected. While diisopropylfluorophosphate-labelling can be useful for detecting proteases inside cells, it does not appear to be specific for surface proteases.     

Proteolytic enzymes in normal and transformed cells

Virally transformed cells show an increased production of proteolytic enzymes. These might be involved in transformation-dependent alterations of cell surface glycoproteins. The possibility arises that some of these proteases might be membrane-bound. To investigate this possibility, we have undertaken a comparative study of the reactivity of intact normal and transformed cells with the tritium labelled protease inhibitor diisopropylfluorophosphate, in parallel with fibrinolytic assays. Using these two approaches in concert, it was possible to identify and localize in the transformed cells several proteases which were present in the particulate cell fraction and were probably membrane bound. In particular, a diisopropylfluorophosphate-reactive polypeptide of 62 000 was increased 5–8-fold on transformation. It comigrated with a fibrinolytic activity. Other particle-bound activities were also detected. While diisopropylfluorophosphate-labelling can be useful for detecting proteases inside cells, it does not appear to be specific for surface proteases.     

Purification and some properties of the extracellular acid proteases from Mucor renninus

A complex of proteases was fractionated into three enzymes by chromatography of a crude enzyme preparation obtained from culture fluid of the fungus Mucor renninus on biospecific polystyrene adsorbent. Electrophoretically homogeneous proteases I-III were obtained by subsequent rechromatography on biospecific adsorbent and gel filtration on Sephadex G-75. Optimal proteolytic activities occurred at pH 4.25; 3.5 and 2.5 for enzymes I, II and III, respectively. Milk-clotting activity was exhibited only by protease II. All three proteases hydrolysed haemoglobin, Na caseinate and bovine serum albumin. Enzyme I hydrolysed Na caseinate the most effectively, while haemoglobin was the most effective substrate for proteases II and III. Trypsinogen was activated only by protease I. All three enzymes have a molecular weight ～35 000 as determined by gel chromatography on Sephadex G-75 column and by sodium dodecylsulphate disc electrophoresis. Isoelectric points, pH-stability range, amino acid composition, carbohydrate content were determined for each enzyme and the influence of metal ions (Ca²⁺, Mg²⁺, Cu²⁺, Co²⁺) on proteolytic activities of these enzymes studied.     

The contribution of leukocyte proteases to fibrinolysis

Polymorphonuclear leukocytes accumulate within blood clots and may contribute to fibrinolysis. The primary fibrinolytic enzymes of neutrophils are cathepsin G and elastase. Fibrin can be exposed to these granular enzymes as a result of cell lysis, phagocytosis of fibrin, or secretion of the enzymes from the cells. Neutrophil secretion occurs in association with blood coagulation and is dependent upon a plasma factor(s) and calcium. After secretion, the enzymes can degrade fibrin within a plasma environment. This is demonstrated by the inhibition of fibrinolysis by specific inhibitors of elastase and the augmentation of fibrinolysis by neutralization of the primary plasma inhibitor of elastase, alpha 1-proteinase inhibitor. A radioimmunoassay which discriminates elastase from plasmic degradation products of fibrinogen has been developed. In this assay, elastase elicited degradation products of fibrin(ogen) were detected in certain pathophysiologic plasma samples. Taken together, these findings indicate a role for leukocyte proteases in physiological fibrinolysis.     

FIBRINOLYTIC PROTEASES FROM THE GUT OF LARVAE OF FLESH FLY, BOETTCHERISCA PEREGRINA (DIPTERA: SARCOPHAGAE): PURIFICATION AND CHARACTERIZATION

Abstract Three fibrinolytic proteases, which were designated as BPGFF'l, BPGFP2 and BPGFP3 individually, were purified from the gut extract of larvae of Boettcherisca peregrina fed on artificial diet containing fibrin-rich pig blood-coagulated block. BPGFP1 consists of two subunits with MW 32 000 and 30 000. Both BPGFP2 and BPGFP3 are monomer with MW 40 000 and 28 000, respectively. These three proteases am similar in substrate and inhibitor specificity. All of them possess high activities against fibrinolytic protease specific substrates such as fibrin, Chromzym P, Chromzym UK and S-2288. They also strongly hydrolyze trypsin-specific substrates Bz-Phe-Val Arg NA, cBz Gly-Pro-Arg NA, Bz-Pro-Phe-Arg NA and Bz-Val-Gly-Arg NA. PMSF, STI, LBTI and SBBI can inhibit activity of these proteases. Activities of these three fibrinolytic proteases were found to be maximal at alkaline range of pH 9.0 ˜ 10.0.     

The major fibrinolytic proteases of human leukocytes

The major fibrinolytic enzymes present in leukocyte granules and active at physiological pH have been identified. The fibrinolytic activity in extracts of leukocyte granules was bound to fibrinogen-Sepharose and eluted with 8.0 M urea. Two distinct zones of fibrinolytic activity were detected upon electrophoresis of leukocyte extracts on fibrinogen polyacrylamide gels, and both were qualitatively recovered in the 8.0 M urea eluate. Quantitatively, greater than 95% of the fibrinolytic activity was recovered in the urea eluate. Two major leukocyte proteases, elastase (EC 3.4.21.11) and cathepsin G (EC 3.4.21.-), were quantitatively recovered in the urea eluate. Both enzymes, when purified separately by affinity chromatography, were shown to: (a) possess fibrinolytic activity; (b) coincide in mobility and generate the two zones of fibrinolytic activity on fibrinogen polyacrylamide gels; and (c) quantitatively reconstitute the fibrinolytic activity of the leukocyte granules when combined at activity levels present in granular extracts. A highly significant correlation (r = 0.98) was found between the fibrinolytic activity and the sum of elastase and cathepsin G activity in leukocytes from five donors. Thus, elastase and cathepsin G are the major enzymes of the leukocyte fibrinolytic pathway, and fibrinogen-Sepharose chromatography may be used to obtain these enzymes.     

Studies on new intracellular proteases in various organs of rat. 1. Purification and comparison of their properties.

1. Specific proteases which inactivate the apo-proteins of many pyridoxal enzymes were found in skeletal muscle, liver and small intestine of rats. The protease from these three organs were purified and their properties were compared. 2. The purified proteases from liver and skeletal muscle appeared homogeneous on acrylamide gel electrophoresis. Two different proteases were separated from small intestine. A homogeneous, crystalline enzyme was obtained from the muscle layer while enzyme from the mucosa was partially purified. 3. They showed substrate specificity for pyridoxal enzymes. Their pH optima were in an alkaline region. They showed activity with the substrate of chymotrypsin, N-acetyl-L-tyrosine ethyl ester, but not with that of trypsin, p-toluenesulfonyl-L-arginine ethyl ester. They were inhibited by pyridoxal phosphate or pyridoxamine phosphate and seryl residues were involved in their active center. 4. The four enzymes differed in the following characters: (a) molecular weights; (b) patterns of elution from a CM-Sephadex column; (c) rates of inactivation of substrate enzymes; (d) rates of cleavage of N-acetyl-L-tyrosine ethyl ester; (e) reactivities with antiserum against the enzyme from the muscle layer of small intestine; (f) specific activities. 5. The amino acid composition and effect of chemical modifications of the crystalline enzyme from the muscle layer of small intestine were examined to elucidate its active sites and mode of action. Serine and histidine residues were found to be essential for protease activity. A tyrosine residue was also necessary for activity. Modifications of its sulfhydryl group, amino residues and carboxyl group had no effect on its activity.     

Secretion of Proteinases with Fibrinolytic Activity by Micromycetes of the Genus <Emphasis Type="Italic">Aspergillus</Emphasis>

Proteolytic activity of extracellular enzymes of 11 strains of different Aspergillus species was studied. Comparison of the enzymatic indices of strains grown on agar medium containing either casein or fibrin allowed the selection of the strain Aspergillus terreus 2 as a promising producer of fibrinolytic proteases. It was found that A. terreus 2 proteinases demonstrated maximum activity at pH 8.0. The highest values of fibrinolytic and total proteolytic activities expressed in U_Tyr (amount of micromoles of tyrosine released from fibrin or casein for 1 min) were 34.0 and 358.3, respectively. Maximum activities were detected when growing the producer on a medium containing only amine nitrogen sources (fish flour hydrolysate and peptone); however, the amount of extracellular protein and the specific fibrinolytic and total proteolytic activities were greater in the medium containing both mineral and amine nitrogen sources (fish flour hydrolysate and sodium nitrate) than in the medium containing only fish flour hydrolysate and peptone as nitrogen sources.     

FXII

The plasma protein FXII (Hageman factor) has been shown to be linked with the plasma defence systems of coagulation, fibrinolysis, kallikrein-kinin and complement. It can be activated by surface contact activation and in solution. Surface contact activation is a complex phenomenon involving negatively charged surfaces, FXII, high molecular weight kininogen and plasma kallikrein. Fluid-phase activation can be effected by a variety of serine proteases. In both types of activation the FXII zymogen is converted to active enzymes. FXII levels in plasma are low or undetectable in both inherited deficiencies and in a variety of clinical conditions. FXII levels can also be elevated in some clinical conditions. Although discovered as a clotting protein FXII appears to play an important role in the kallikrein-kinin and fibrinolytic systems and also has effects on cells. Recent studies suggest that therapeutic blockade of activation of FXII can be of benefit in certain clinical conditions.     

Characterization of Potent Fibrinolytic Enzymes in Earthworm,Lumbricus rubellus

Stable and potent fibrinolytic enzymes (six homogeneous proteins) were purified to homogeneity from extracts of the lyophilized powder of an earthworm, Lumbricus rubellus. The molecular weight of each enzyme estimated by SDS–polyacrylamide gel electrophoresis was different from those by gel filtration chromatography in the six purified proteins. The exact molecular weight of each enzyme (F-III-2, F-III-1, F-II, F-I-2, F-I-l, and F-I-0) measured by ionspray MS analysis was 29, 662, 29, 667, 24, 664, 24, 220, 24, 196, and 23,013, respectively. The isoelectric point (pI) of each enzyme was 3.40, 3.60, 4.20, 4.00, 4.30, and 4.85, respectively. The enzymes were single polypeptide chains. They had a very strong fibrinolytic activity and the maximum reactivity for chromogenic substrates from pH 9-11. The enzymes, acidic proteins that had abundant asparagine and aspartic acid, and low lysine in their amino acid composition, did not contain component sugars. The enzymes were stable at from pH 1-11 and up to 60°C. Studies on substrate specificity and inhibition indicated that these enzymes were alkaline trypsin-like serine proteases. N-Terminal amino acid sequences of the enzymes had local similarities to those of trypsin-like enzymes such as elastase and coagulation factor IX. From the results of amino acid sequence, amino acid composition analyses and immunological analyses, it was suggested that these six enzyme proteins were derived as isozyme(s) from at least four different genes.     

Specificity of action of extracellular proteases from Streptomyces spp.]

The ability of an Actinomyces strain--Streptomyces spp. to produce extracellular proteases has been studied under varied cultivation conditions during the growth cycle. The activity of enzyme preparations precipitated from the culture liquid was determined with various substrates--gelatin, casein, fibrinogen, fibrin and collagen. The isolated enzyme complex possessed caseinolytic, fibrinolytic, thrombolytic and collagenolytic activities.     

Evaluation of individual variability in the composition of Agkistrodon contortrix contortrix venom by means of HPLC and two-dimensional PAGE

Qualitative and quantitative differences of coagulant enzymes in venom samples from individuals of the Agkistrodon c.c. were studied by means of 2D-PAGE and high performance anion-exchange chromatography. A great diversity was found among individual venoms. The two most similar venoms had an identical composition in only about 90%, the least similar ones in about 45% spots. All venoms studied contained more than two fractions with fibrinolytic activity. In three out of the nine analysed venoms two different thrombic proteases were present, one venom contained only one of these enzymes, whereas in five venoms no thrombic activity was detectable.     

钜齿远蚓(Amynthas dancataa)纤溶酶的分离纯化及其若干性质

 以野生型钷齿远蚓为材料,组织匀浆后,经生理盐水抽提,硫酸铵分级沉淀,葡聚糖凝胶过滤和DEAE离子交换层析,得到两种纯的蚯蚓溶酶,具有强烈的溶解纤维蛋白的作用。它们都是糖蛋白,非寡聚酶,分子量分别为23,000、40,000。测定了一个酶的氨基酸组成,它对某些底物的作用,被一些抑制剂抑制的程度,说明它是练氨酸蛋白酶类、胰蛋白酶类酶     

Identification of two novel fibrinolytic enzymes from Bacillus subtilis QK02

Two fibrinolytic enzymes (QK-1 and QK-2) purified from the supernatant of Bacillus subtilis QK02 culture broth had molecular masses of 42,000 Da and 28,000 Da, respectively. The first 20 amino acids of the N-terminal sequence are AQSVPYGISQ IKAPALHSQG. The deduced protein sequence and its restriction enzyme map of the enzyme QK-2 are different from those of other proteases. The enzyme QK-2 digested not only fibrin but also a subtilisin substrate, and PMSF inhibited its fibrinolytic and amidolytic activities completely; while QK-1 hydrolyzed fibrin and a plasmin substrate, and PMSF as well as aprotinin inhibited its fibrinolytic activity. These results indicated QK-1 was a plasmin-like serine protease and QK-2 a subtilisin family serine protease. Therefore, these enzymes were designated subtilisin QK. The sequence of a DNA fragment encoding subtilisin QK contained an open reading frame of 1149 base pairs encoding 106 amino acids for signal peptide and 257 amino acids for subtilisin QK, which is highly similar with that of a fibrinolytic enzyme, subtilisin NAT (identities 96.8%). Asp32, His64 and Ser221 in the amino acid sequence deduced from the QK gene are identical to the active site of nattokinase (NK) produced by B. subtilis natto.     

Directed biosynthesis of proteolytic enzymes in Actinomyces thermovulgaris]

The biosynthesis of proteolytic enzymes in the thermophilic culture of Actinomyces thermovulgaris, strain T-54, was directed by changing the composition of the medium and the temperature of cultivation. A temperature of 40 degrees C is optimal for the growth and production of neutral and alkaline proteases. The maximum activity of acid proteases was found during the growth on a complex medium at 30 degrees C. An increase of temperature to 50 degrees C during the cultivation of the microorganism on a chemically defined medium resulted in its secondary growth and a sharp rise in the activity of alkaline and neutral proteases.