Specific enzymic cleavage of polypeptides at cysteine residues.

A method has been developed for specific enzymic cleavage of polypeptides at the N-terminal side of modified cysteine residues. Lysine residues are blocked by trifluoroacetylation and cysteine residues subsequently converted to the 2-aminoethyl derivatives. Digestion of the modified polypeptide with the lysine-specific protease from Armillaria mellea (patented by Walton et al., 1972) occurs only at 2-aminoethylcysteine residues. With the beta chain of human haemoglobin, which contains 2 cysteine and 11 lysine residues, cleavage was observed at both modified cysteines but at none of the lysines. In the case of a polypeptide from bee venom which contains 4 half-cystine and 5 lysine residues, cleavage occurred at only 2 of the modified cysteines and also at 2 lysine residues. The pattern of cleavage in the latter case can be interpreted in terms of the amino acid sequence of the polypeptide.     

The Clostridium ramosum IgA proteinase represents a novel type of metalloendopeptidase

Clostridium ramosum is part of the normal flora in the human intestine. Some strains produce an IgA proteinase that specifically cleaves human IgA1 and the IgA2m(1) allotype. This prolylendopeptidase was purified from a broth culture supernatant, and N-terminal sequences of the native protein and tryptic fragments thereof were determined. A fragment of the iga gene encoding the IgA proteinase was isolated using degenerate primers in PCR, and the complete gene was obtained by inverse PCR. The identity of the iga gene was confirmed by heterologous expression in Escherichia coli. The deduced amino acid sequence indicated a signal peptide of 30 residues and a secreted proteinase of 133,828 Da. A typical Gram-positive cell wall anchor motif was identified in the C terminus. The presence of a putative zinc-binding motif His-Glu-Phe-Gly-His together with inhibition studies indicate that the proteinase belongs to the zinc-dependent metalloproteinases. However, the sequence of the C. ramosum IgA proteinase shows no overall similarity to other proteins except for significant identity around the zinc-binding motif with family M6 of metalloendopeptidases, and the unique sequence of the IgA proteinase in this area presumably establishes a new subfamily. The GC percentage of the iga gene is significantly higher than that for the entire genome of C. ramosum, suggesting that the gene was acquired recently in evolution.     

Purification and Characterization of Intracellular Proteinases in Pleurotus ostreatus Fruiting Bodies

A serine proteinase (ProA, EC 3.4.22.9) and two metalloendopeptidases (ProB, EC 3.4.99.32 and ProC, 3.4.24.4), have been purified to homogeneity from the fruiting bodies of Pleurotus ostreatus. ProA is a serine proteinase with a mass of 30 kDa, which has amidolytic and esterolytic activities besides proteolysis and catalyzes preferential cleavage of the peptide bonds involving the carboxyl groups of hydrophobic amino acid residues in oxidized bovine insulin B chain. The N-terminal amino acid sequence was VTQTNAPWGLSRL.

ProB is a zinc-enzyme with a mass of 18 kDa, which is devoid of lysine, and its N-terminal sequence was ATFVGCSATRQ. The enzyme is inactivated completely by EDTA and 1,10-phenanthroline, and Zn²⁺-depleted ProB can regain the activity with Zn²⁺, Co²⁺, or Mn²⁺. Specific cleavage of Pro₂₉-LYS₃₀ in oxidized bovine insulin B chain, preferential generation of lysylpeptides from proteins, and a high susceptibility of polylysine suggest that ProB splits specifically the peptide bonds involving the α-amino group of lysyl residues.

ProC is a metalloendopeptidase of a mass of 42.5 kDa, and Zn²⁺ was the most effective divalent metal ion to activate the EDTA-inactivated enzyme.     

Cleavage by trypsin and by the proteinase from Armillaria mellea at epsilon-N-formyl-lysine residues.

Kinetic studies were made of the hydrolysis by trypsin of alpha-N-acetylglycyl-L-lysine methyl ester and of its neutral analogue alpha-N-acetylglycyl-epsilon-N-formyl-L-lysine methyl ester. The latter substance is a moderately good substrate for trypsin, and this observation is discussed in terms of the substrate specifically of the enzyme. The actions of trypsin and of the lysine-specific proteinase from Armillaria mellea on both a native and a formylated polypeptide substrate were compared. Both enzymes were found to hydrolyse specifically bonds to epsilon-N-formyl-lysine in the formylated substrate.     

Purification and characterization of fibrinolytic enzyme from cultured mycelia of Armillaria mellea

A fibrinolytic enzyme was purified from the cultured mycelia of Armillaria mellea by ion-exchange chromatography followed by gel filtration, and was designated A. mellea metalloprotease (AMMP). The purification protocol resulted in a 627-fold purification of the enzyme, with a final yield of 6.05%. The apparent molecular mass of the purified enzyme was estimated to be 21kDa by SDS-PAGE, fibrin-zymography and gel filtration chromatography, which revealed a monomeric form of the enzyme. The optimal reaction pH value and temperature were, pH 6.0, and 33 degrees C, respectively. This protease effectively hydrolyzed fibrinogen, preferentially digesting the Aalpha-chain over the Bbeta- and r-chains. Enzyme activity was inhibited by Cu(2+) and Co(2+), but enhanced by the addition of Ca(2+) and Mg(2+) ions. Furthermore, AMMP activity was potently inhibited by EDTA, and was found to exhibit a higher specificity for the substrate S-2586 for chymotrypsin, indicating that the enzyme is a chymotrypsin-like metalloprotease. The first 24 amino acid residues of the N-terminal sequence were MFSLSSRFFLYTLCL SAVAVSAAP, which is extremely similar to the 24 amino acid residues of the N-terminal sequence of the fruiting body of A. mellea. These data suggest that the fibrinolytic enzyme AMMP, obtained from the A. mellea exhibits a profound fibrinolytic activity. The mycelia of A. mellea may thus represent a potential source of new therapeutic agents to treat thrombosis.     

Cloning and expression of the gene encoding a novel proteinase from Tritirachium album limber

We have isolated the genomic and cDNA clones encoding a novel proteinase from the fungus Tritirachium album Limber, named proteinase T, synthesis of which is induced in skim milk medium. The coding sequence for this enzyme is interrupted by two introns in the fungal genome. The amino acid sequence of proteinase T as deduced from the nucleotide sequence is about 53% identical to that of proteinase K. Four cysteines are present in the mature proteinase, probably in the form of two disulfide bonds, which might explain the thermal stability of the proteinase. We have expressed the proT cDNA in Escherichia coli. The authenticity of the product has been characterized by Western blotting and N-terminal analysis of the recombinant product.     

High-yield purification of HIV-1 proteinase expressed by a synthetic gene in Escherichia coli.

A rapid and simple purification procedure for human immunodeficiency virus type 1 (HIV-1) proteinase from a synthetic gene expressed in Escherichia coli has been developed. The synthetic gene was constructed from oligonucleotides containing several restriction enzyme sites in order to allow simple construction of homologous genes. The protein was translated as a precursor which was autocatalytically processed into the mature protein as shown by N-terminal sequence analysis of the purified protein. Immunoblot analysis was used to verify the nature of the expression product and it was found that 2 of 10 anti-peptide antibodies, covering the whole proteinase sequence, were able to react with the enzyme in crude bacterial lysates. These two anti-peptide antibodies represent a continuous sequence partially overlapping the active site. The purification involves two initial precipitation steps followed by cation-exchange and size-exclusion chromatography. A high yield and a high specific activity were achieved.     

Streptomyces griseus aminopeptidase is a calcium-activated zinc metalloprotein. Purification and properties of the enzyme

A heat-stable aminopeptidase with an N-terminal Ala-Pro-Asp-Ile-Pro-Leu sequence has been purified from Streptomyces griseus by heat treatment followed by gel-exclusion and anion-exchange chromatographic procedures. The enzyme is a monomeric zinc metalloenzyme showing an apparent molecular mass of 33 kDa by sodium dodecyl sulfate/polyacrylamide gel electrophoresis and 21 kDa by gel filtration on Superose 12. Calcium ions bind to the enzyme, pKCa 4.5, and activate it about sixfold when the substrate is leucine-4-nitroanilide (0.4 mM in 50 mM Tris/HCl pH 8.0, 25 degrees C). Binding of Ca2+ also contributes to the thermal stability of the protein. This aminopeptidase may be useful for two-stage assays of bacterial and mammalian metalloendopeptidases; it may also serve in studies of proteolytic enzyme activation by calcium ions.     

Cloning and developmental expression of a metzincin family metalloprotease cDNA from oyster mushroom Pleurotus ostreatus

A cDNA clone, PoMTP, encoding a putative metzincin family metalloprotease was isolated from the expressed sequence tags of a basidiomycete Pleurotus ostreatus. The 5'-end sequence of PoMTP was determined by the 5'-RACE method. Full-length cDNA sequence (1140 bp) of PoMTP contained a 870 bp open reading frame encoding a protein product of 290 amino acids in addition to a 99 bp of 5'-untranslated sequence and a 171 bp of 3'-untranslated sequence with a poly(A) tail. The deduced amino-acid sequences of PoMTP contained an extensive zinc-binding consensus sequence and a so-called Met-turn sequence which are typical for the metzincin family of metalloproteases, indicating that the PoMTP protein belongs to the metzincin metalloproteases. Four cysteine residues were also observed in the zinc-binding region of PoMTP amino-acid sequence, which are known to be important for the structure and the function of some subfamilies of the metzincins. Comparison of the PoMTP in sequence database showed no significant homology with functionally known metalloproteases of Armillaria mellea, Grifola frondosa, Lentinula edodes, Pleurotus ostreatus, Schizophyllum commune and Tricholoma saponaceum in mushroom. Northern blot and qunatitative RT-PCR analyses indicated the PoMTP mRNA to be abundant at primordial and fruit body stages, but scarce at the mycelial stage, suggesting that the PoMTP metalloprotease plays an important role in mushroom fruiting.     

The astacin family of metalloendopeptidases

Molecular cloning of a human intestinal brush border metalloendopeptidase (N-benzoyl-L-tyrosyl-p-aminobenzoic acid hydrolase, PPH) and a mouse kidney brush border metalloendopeptidase (meprin A) has revealed 82% identity in the NH2-terminal amino acid sequences (198 residues) of the mature enzymes. Furthermore, searching of protein sequence data bases with the inferred peptide sequences as probes revealed strong similarities to astacin, a crayfish digestive protease, and an NH2-terminal domain of a human bone morphogenetic protein (BMP-1). Meprin A and PPH both have approximately 30% identity with astacin and BMP-1. Multiple alignment analysis indicated that 37 residues, including 3 cysteine residues, are strictly conserved for the four proteins in a sequence frame equivalent to the complete 200-amino acid astacin sequence. The four proteins contain a zinc-binding motif (HEXXH), found at the active site of most metalloendopeptidases, within an extended sequence of HEXXHXXGFXHE which is unique to this subgroup of metalloendopeptidases. In addition, the four proteins have 54% identity in a 24-amino acid sequence that includes the putative active site. A fifth protein, Xenopus laevis developmentally regulated protein UVS.2, also shares sequence identity with the metalloendopeptidases. These data provide strong evidence for an evolutionary relationship of these proteins. It is suggested that this new family of metalloendopeptidases be called the "astacin family."     

Isolation and properties of serine proteinase from Aspergillus oryzae

A serine proteinase having an activity optimum at pH 6.7-8.2 has been isolated from amylorisine P-10x (a mixture of Aspergillus oryzae enzymes) by chromatography on DEAE-Sephadex A-50 and bacitracin Sepharose 4B. The proteinase is fully inactivated by phenylmethylsulfonylfluoride and diisopropylfluorophosphonate, the specific inhibitors of the enzyme, and has a pI at pH 7.5. The molecular mass of serine proteinase is 30000 Da; its amino acid composition appears as: Met2, Asp33, Thr18, Ser29, Glu21, Pro9, Glu32, Ala38, Val24, Ile16, Leu15, Tyr8, Phe8, His8, Lys18, Arg4, Trp6. The N-terminal sequence of the serine proteinase: Gly-Leu-Thr-Thr-Gln-Lys-Ser-Ala-Pro-Trp-Gly-Leu-Gly-Ser-Ile-Ser-Xaa-Lys- Gly-Gln-Gln-Ser-Thr-Asp-Tyr-Ile-Tyr, which coincides practically completely with the corresponding sequence of alkaline proteinase of A. oryzae, ATCC20386, has been determined. Similar to subtilisin, the enzyme catalyzes the condensation of leucine and alanine p-nitroanilides with N-benzyloxycarbonyl-alanyl-alanine and glycyl-alanine methyl esters.     

Proteinases in the study of amino acid sequences in proteins

The proteolytic action of trypsin, chymotrypsin, submaxillary gland proteinases, Lys-C, Staphylococcus aureus st. V8, Armilarria mellea, Mixobacter AL-2 proteinase II, thermolysin and alpha-lytic proteinase is elucidated from the analysis of te data available on the amino acid sequence studies for above 70 proteins. Properties of a series of commercial enzymic preparations and the way of preferential application of proteinases for studying the amino acid sequence are discussed.     

Molecular cloning of Soli E2: an elastase-like serine proteinase from the imported red fire ant (Solenopsis invicta).

The 4th instar larva of the imported red fire ant, Solenopsis invicta, possesses several serine proteinases, one of which, referred to as Soli E2, has been found to contain elastase-like activity. A cDNA library was constructed in lambda gt10 using Poly(A)+RNA from these larvae and a synthetic degenerate oligonucleotide probe corresponding to a sequence encoding the N-terminal of Soli E2 was utilized to screen the library. Two clones were obtained covering the entire coding region of Soli E2, and the predicted structure of this proteinase indicated that it was synthesized as a preproenzyme of 249 amino acids, which was cleaved to give the mature form of 226 residues. In addition, both clones showed identity to the N-terminal amino acid sequence obtained from Edman degradation of the mature purified proteinase. Significantly, Northern blot analysis of the different developmental stages revealed that Soli E2 was selectively expressed in the 4th instar larvae.     

Characterization of a cloned subtilisin-like serine proteinase from a psychrotrophic Vibrio species.

The gene encoding a subtilisin-like serine proteinase in the psychrotrophic Vibrio sp. PA44 has been successfully cloned, sequenced and expressed in Escherichia coli. The gene is 1593 basepairs and encodes a precursor protein of 530 amino acid residues with a calculated molecular mass of 55.7 kDa. The enzyme is isolated, however, as an active 40.6-kDa proteinase, without a 139 amino acid residue N-terminal prosequence. Under mild conditions the enzyme undergoes a further autocatalytic cleavage to give a 29.7-kDa proteinase that retains full enzymatic activity. The deduced amino acid sequence of the enzyme has high homology to proteinases of the proteinase K family of subtilisin-like proteinases. With respect to the enzyme characteristics compared in this study the properties of the wild-type and recombinant proteinases are the same. Sequence analysis revealed that especially with respect to the thermophilic homologues, aqualysin I from Thermus aquaticus and a proteinase from Thermus strain Rt41A, the cold-adapted Vibrio-proteinase has a higher content of polar/uncharged amino acids, as well as aspartate residues. The thermophilic enzymes had a higher content of arginines, and relatively higher number of hydrophobic amino acids and a higher aliphatic index. These factors may contribute to the adaptation of these proteinases to different temperature conditions.     

News & Notes: Specificity of a Neutral Zn-Dependent Proteinase from Thermoactinomyces sacchari Toward the Oxidized Insulin B Chain

The proteolytic specificity of the neutral Zn-dependent proteinase from Thermoactinomyces sacchari was determined by analysis of the peptides obtained after incubation with the oxidized insulin B chain as a substrate. The enzyme is an endopeptidase with broad specificity. In total, 12 peptide bonds in the B chain of insulin were hydrolyzed. The major requirement is that a hydrophobic residue such as Leu, Val, or Phe should participate with the α-amino group in the bond to be cleaved. However, hydrolysis of bonds at the N-terminal side of His, Thr, and Gly was also observed. The peptide bond Leu 15–Tyr 16 in the oxidized insulin B chain, which is the major cleavage site for the alkaline microbial proteinases, is resistant to the attacks of the enzyme from Thermoactinomyces sacchari and other neutral proteinases. The proteolytic activity of the Zn-dependent proteinase from T. sacchari is different from those of other metalloendopeptidases from microorganisms. Received: 10 November 1999 / Accepted: 15 December 1999     

N-terminal sequence similarities between components of the multicatalytic proteinase complex

The multicatalytic proteinase complex is a high molecular weight nonlysosomal proteinase which is composed of many different types of subunit. As part of a study of the possible relationships between subunits, polypeptides derived from the multicatalytic proteinase from rat liver have been subjected to N-terminal amino acid sequence analysis. Although several of the subunits are blocked at their N-termini, sequences have been obtained for 7 of the polypeptides. Each of the 7 sequences is unique but they show considerable sequence similarity, suggesting that the proteins are encoded by members of the same gene family.     

Complete primary structure of a calcium-dependent serine proteinase capable of degrading extracellular matrix proteins

A novel calcium-dependent serine proteinase (CASP) secreted from malignant hamster embryo fibroblast Ni 12C2 degrades extracellular matrix proteins. A complementary DNA encoding CASP has been isolated with the use of oligonucleotide probes synthesized based on partial amino acid sequences of CASP. The complete amino acid sequence of CASP revealed that it has a serine active site at the C-terminal side. Glu rich and proEGF homologous sites are found at the N-terminal site suggesting that it is structurally similar to blood coagulation factors such as IX, X and an anti-coagulation factor, protein C.     

Characterization of a metalloenzyme from a wild mushroom, Tricholoma saponaceum

Two kinds of metalloendopeptidases from the fruiting bodies of Tricholoma saponaceum (TSMEP1 and TSMEP2) have been purified, and TSMEP1 has been characterized based on their fibrinolytic activity. The enzymes have the same N-terminal amino acid sequence, Ala-Leu-Tyr-Val-Gly-X-Ser-Pro-X-Gln-Gln-Ser-Leu-Leu-Val, but slightly different molecular weights of 18,147 and 17,947, as measured by matrix assisted laser desorption ionization time of flight (MALDI-TOF) mass spectrometry. The N-terminal sequence do not match with any known protein or open reading frame. TSMEP1 hydrolyzes fibrinogen as well as fibrin, but does not show any proteolytic activity for other blood proteins such as thrombin, human albumin, human IgG, hemoglobin, or urokinase. The enzyme hydrolyzes both A alpha and B beta subunits of human fibrinogen with equal efficiency but didn't show any reactivity for the gamma form of human fibrinogen. The enzymatic activity is strongly inhibited by EDTA and 1,10-phenanthroline, indicating that the enzymes are metalloproteases. No inhibition was found with phenylmethylsulfonyl fluoride (PMSF), L-trans-epoxysuccinyl leucylamido-(4-guanidino)-butane (E-64), pepstatin and 2-mercaptoethanol. The activity of the purified enzyme was increased by Mg2+, Fe2+, Zn2+, and Co2+, and slightly decreased by Ca2+, but the enzyme activity was dramatically decreased by Cu2+, and totally inhibited by Hg2+. It has broad substrate specificity for synthetic peptides, and keep the high activity from pH 7.5 to 9, suggesting that the purified enzyme was a basic protease. The enzyme was stable up to 30 degrees C and the maximum fibrinolytic activity was at 55 degrees C.     

Families of metalloendopeptidases and their relationships.

Crystal structures available for four metalloendopeptidases have revealed zinc ligands for these enzymes. New sequence information has made it possible to compare the primary structures of the zinc-binding site in metalloendopeptidases. A scheme based on the zinc-binding site is proposed to classify metalloendopeptidases into five distinct families: thermolysin, astacin, serratia, matrixin, and snake venom metalloproteinases. Two histidines and one glutamate are zinc-ligands in the thermolysin family. Three histidines and one tyrosine are zinc ligands in the other four families, which are further distinguished by the identity of the residue following the third histidine and by the environment surrounding the tyrosine.     

Molecular cloning and sequence analysis of a gene encoding an extracellular proteinase from Lactobacillus helveticus CP790

A 2.6-kilobase HaeIII DNA fragment corresponding to an extracellular proteinase gene (prtY) was cloned from chromosomal DNA of Lactobacillus helveticus CP790 in Escherichia coli using a pKK223-3 vector. The transformant expressed a 48-kDa protein that reacts with monoclonal antibodies specific to the proteinase and seemed to be a pre-proproteinase, but had no proteolytic activity. About 1.6 kilobases of the 2.6-kilobase DNA fragment, which contained the complete gene for the proteinase was sequenced. Sequence analysis found an open reading frame with a capacity to encode a protein of 449 amino acids. The coding region contained a Gram-positive-type signal peptide of 30 amino acids. The N-terminal sequences of the proproteinase and the mature proteinase have been observed in the polypeptide at position + 31 and + 38. The putative amino acid sequence showed a significant similarity to a surface layer protein of L. helveticus and Lactobacillus acidophilus in the amino terminal signal sequence and carboxyl terminus.