Metalloproteinase with factor X activating and fibrinogenolytic activities from Vipera berus berus venom

We have previously shown that Vipera berus berus venom contains several factor X activating enzymes. In the present study we have investigated one of them. The enzyme was separated from venom by gel filtration on Sephadex G-100 superfine and chromatography on agarose HPS-7 and phenyl-agarose. The enzyme is a glycosylated metalloproteinase containing hexoses, hexosamines and neuraminic acid. The purified factor X activating enzyme consists of two equal chains (59 kDa). The specificity studies have shown that enzyme is nonspecific factor X activating proteinase hydrolysing also proteins such as azocasein, gelatin and fibrinogen. The enzyme hydrolyses oxidized insulin B-chain at the positions Ala¹⁴–Leu¹⁵ and Tyr¹⁶–Leu¹⁷ but it is inactive on fibrin, plasminogen and prothrombin. We used 8–10 amino acid residues containing peptides, which reproduce the sequence around the cleavage sites in factor X, factor IX and fibrinogen, as potential substrates for enzyme. Cleavage products of peptide hydrolysis were determined by MALDI-TOF MS. The peptide Asn–Asn–Leu–Thr–Arg–Ile–Val–Gly–Gly—factor X fragment was cleaved by enzyme at positions Leu³–Thr⁴ and Arg⁵–Ile⁶. The fibrinogen peptide fragment Glu–Tyr–His–Thr–Glu–Lys–Leu–Val–Thr–Ser was hydrolysed at position Lys⁶–Leu⁷.     

A novel fibrinolytic serine protease from the polychaete Nereis (Neanthes) virens (Sars): purification and characterization

A novel fibrinolytic serine protease has been identified and purified to homogeneity from the coelomic fluid of polychaete Nereis (Neanthes) virens (Sars), and named N-V protease. N-V protease is a 29kDa single chain protein with an isoelectric point of pH 4.5. It hydrolyzes Aalpha-chain of fibrinogen with a high efficiency, and the Bbeta- and gamma-chains (Aalpha>Bbeta>gamma) with a lower efficiency. The proteolytic activity peaks at pH 7.8 is 45 degrees C. The activity is completely inhibited by serine protease inhibitors DFP (I(50)=5.8 x 10(-4)M) and PMSF (I(50)=5.5 x 10(-2)M), and almost completely by TLCK (I(50)=7.7 x 10(-1) M). But aprotinin, elastinal, SBTI, benzamidine, PCMB, EDTA, EGTA, iodoacetate, E64, and beta-mercaptoethanol have no effect on the protease activity. Therefore, N-V protease is identified as a serine protease. The primary amino acid sequence of N-V protease was determined by mass spectrometry (N-V protease, No. P83433). According to the MALDI-TOF MS analysis, there is no existing protein in the NCBI Non-redundant Protein Sequence Database that matches the N-V protease sequence. Therefore, N-V protease is a novel and special protein in N. virens. Furthermore, we have successfully established an expression cDNA library from the whole body of N. virens (data not shown).     

Biochemical and enzymatic characterization of BpMP-I, a fibrinogenolytic metalloproteinase isolated from Bothropoides pauloensis snake venom

Snake Venom Metalloproteinases (SVMPs) are the most abundant components present in Viperidae venom. They are important in the induction of systemic alterations and local tissue damage after envenomation. In the present study, a metalloproteinase named BpMPI was isolated from Bothropoides pauloensis snake venom and its biochemical and enzymatic characteristics were determined. BpMPI was purified in two chromatography steps on ion exchange CM-Sepharose Fast flow and Sephacryl S-300. This protease was homogeneous on SDS-PAGE and showed a single chain polypeptide of 20 kDa under non reducing conditions. The partial amino acid sequence of the enzyme showed high similarity with other SVMPs enzymes from snake venoms. BpMPI showed proteolytic activity upon azocasein and bovine fibrinogen and was inhibited by EDTA, 1,10 phenanthroline and β-mercaptoethanol. Moreover, this enzyme showed stability at neutral and alkaline pH and it was inactivated at high temperatures. BpMPI was able to hydrolyze glandular and tissue kallikrein substrates, but was unable to act upon factor Xa and plasmin substrates. The enzyme did not induce local hemorrhage in the dorsal region of mice even at high doses. Taken together, our data showed that BpMP-I is in fact a fibrinogenolytic metalloproteinase and a non hemorrhagic enzyme.     

Purification and characterization of a novel fibrinolytic protease from <Emphasis Type="Italic">Fusarium</Emphasis> sp. CPCC 480097

A novel fibrinolytic enzyme from Fusarium sp. CPCC 480097, named Fu-P, was purified to electrophoretic homogeneity using ammonium sulfate precipitation and ion exchange and gel filtration chromatography. Fu-P, a single protein had a molecular weight of 28 kDa, which was determined by SDS-PAGE and gel filtration chromatography. The isoelectric point of Fu-P determined by isoelectric focusing electrophoresis (IEF) was 8.1, and the optimum temperature and pH value were 45°C and 8.5, respectively. Fu-P cleaved the α-chain of fibrin (ogen) with high efficiency, and the β-chain and γ-γ (γ-)-chain with lower efficiency. Fu-P activity was inhibited by EDTA and PMSF, and the enzyme exhibited a high specificity for the chymotrypsin substrate S-2586. Fu-P was therefore identified as a chymotrypsin-like serine metalloprotease. The first 15 amino acids of the N-terminal sequence of Fu-P were Q-A-S–S-G-T-P-A-T-I-R-V-L-V–V and showed no homology with that of other known fibrinolytic enzymes. This protease may have potential applications in thrombolytic therapy and in thrombosis prevention.     

菜花烙铁头蛇毒金属蛋白酶Jerdonitin的分离纯化和理化性质

以前从菜花烙铁头蛇毒中分离纯化到Jerdonitin。与其他Ⅱ型蛇毒金属蛋白酶相比,Jerdonitin由金属蛋白酶和去整合素两个结构域组成。但没有检测到其出血和纤维蛋白原降解活性,推测可能高压液相色谱的有机溶液影响了其酶活性。采用不含高压液相色谱柱层析的新分离手段分离得到Jerdonitin。Jerdonitin在还原和非还原SDS—PAGE电泳中分别呈现一条表观分子量为38和36kDa的条带。像其他典型的蛇毒金属蛋白酶一样,Jerdonitin优先降解人纤维蛋白原的alpha链,并且该活性能被EDTA完全抑制,而PMSF对其没有影响。Jerdonitin不诱导小白鼠皮下出血。     

Extracellular fibrinogenolytic enzyme of Aspergillus fumigatus: substrate-dependent variations in the proteinase synthesis and characterization of the enzyme

Abstract To get a better understanding of the role of the previously reported fibringenolytic enzyme of Aspergillus fumigatus , we investigated the in vitro conditions of enzyme synthesis and attempted to characterize it. Modification of the nitrogen source did not influence the extracellular serine-proteinase profile, but resulted in important quantitative differences in the yields in batch cultures. The enzyme synthesis appeared to be an inducible phenomenon in A. fumigatus since it was initiated exclusively in the presence of proteins or protein hydrolysate. Free amino acids or inorganic nitrogen compounds could not promote significant enzyme production. Moreover, peptone at a concentration of 0.1% appeared to be the best inducer of enzyme synthesis. Conversely, modification of the carbon source did not affect fungal growth or enzyme synthesis. However, the production of chymotrypsin was highly sensitive to the carbohydrate level in the culture medium and, with peptone as nitrogen source, highest yields were obtained in the presence of 0.3 or 0.5% glucose. Culture filtrates of A. fumigatus CBS 113.26 grown with peptone or nitrate as nitrogen source were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Comparison of the protein patterns suggested for the proteinase a molecular mass of 33 kDa which was confirmed by chromatographic purification of the enzyme through (Nα-CBZ)- d -phenylalanine agarose.     

Purification and characterization of a fibrinogenolytic and hemorrhagic metalloproteinase isolated from Vipera lebetina venom

Serious clinical problems such as hemorrhage, edema and tissue necrosis are observed following viperid envenoming. A proteinase (VLH2) was isolated from Vipera lebetina by combination of two chromatographic steps of gel filtration on Sephadex G-75 followed by DEAE Sephadex A-50. This acidic proteinase, with a molecular mass of about 55 kDa and isoelectric point of 5.4, displayed a fibrinogenolytic and hemorrhagic activities. VLH2 hydrolyses rapidly the Aα-chain of fibrinogen, followed, more slowly, by the Bβ-chain, leaving the γ-chain unaffected. The proteolytic and hemorrhagic activities of VLH2 were inhibited by EDTA, EGTA and 1–10 phenanthroline. However, these activities were not affected by AEBSF, Aprotinine, and E64, suggesting that VLH2 is a metalloproteinase with an α-fibrinogenase activity, requiring calcium and zinc for its activity. The enzyme VLH2 did not have proteolytic activity towards extracellular components gelatin, laminin and fibronectin. The hemorrhagic metalloproteinase VLH2 has a myotoxic activity, as determined by serum CK level and histological observation of muscle tissue. Furthermore, VLH2 is able to induce apoptosis of C2C12 myotubes. These results indicate that VLH2 is implicated in the local and systemic bleeding, contributing thus in the toxicity of V. lebetina venom.     

Expression, purification and characterization of Gloydius shedaoensis venom gloshedobin as Hsp70 fusion protein in Pichia pastoris

Gloshedobin, a thrombin-like enzyme from the venom of Gloydius shedaoensis was expressed as Hsp70 fusion protein from the construct pPIC9K/hsp70-TLE in the yeast Pichia pastoris. By fusing gloshedobin to the C-terminus of Hsp70, an expression level of 44.5 mg Hsp70-gloshedobin per liter of culture was achieved by methanol induction. The fusion protein secreted in the culture medium was conveniently purified by two chromatographic steps: Q-Sepharose FF and Superdex 200. The purified enzyme had an apparent molecular mass of 98 kDa according to SDS–PAGE analysis, and exhibited fibrinogenolytic activity that preferentially degraded fibrinogen α-chain. The enzyme also degraded fibrinogen β-chain to a lesser extent, while showing no degradation toward the γ-chain. A fibrinogen clotting activity of 499.8 U/mg was achieved by the enzyme, which is within the range reported for other thrombin-like enzymes. Hsp70-gloshedobin had strong esterase activity toward the chromogenic substrate Nα-p-tosyl-Gly-Pro-Arg-p-nitroanilide, and this activity was optimal at pH 7.5 and 50 °C, and was completely inhibited by PMSF, but not by EDTA. We concluded that Hsp70 has no effect on the physiochemical and biochemical properties of gloshedobin. Although applying a fusion partner with very big molecular weight is unusual, Hsp70 proved its advantage in soluble expression of gloshedobin without affecting its fibrinogenolytic activity. And this positive result may provide an alternative strategy for the expression of thrombin-like enzymes in microbial system.     

Purification and characterization of three thermostable alkaline fibrinolytic serine proteases from the polychaete Cirriformia tentaculata

Three distinct alkaline serine proteases (named CTSP-1, -2, and -3) were purified from the polychaete Cirriformia tentaculata and characterized in terms of their enzymatic properties and kinetics. The estimated molecular masses of CTSP-1, -2, and -3 enzymes were found to be 28.8, 30.9, and 28.4 kDa, respectively. The enzymes were active at the temperature range of 50–60 °C under pH 8.5–9.0 and completely inactivated by phenylmethanesulfonyl fluoride and diisopropyl fluorophosphates, but not by 1,10-phenanthroline and bestatin, suggesting that they are all typical serine proteases and not metalloproteases or cysteine proteases. CTSP-1 and -2 cleaved arginine, whereas CTSP-3 digested tyrosine residue at the carboxyl sides in their peptide substrates. A typical hepta-sequence (I-X-X-G-X-X-A) conserved in serine proteases from annelid species was found in N-termini of all CTSPs. CTSP-2 was the most active enzyme among the proteases purified as shown by kinetic values. The enzymes cleaved all chains of fibrinogen within 20 min and also hydrolyzed actively fibrin polymer as well as cross-linked fibrin. In addition, the enzymes could actively digest the fibrin clot in blood plasma milieu. Taken together, the results obtained demonstrate that CTSP enzymes have a potential of becoming therapeutic agents for thrombus dissolution.