Preliminary analysis of the proteolytic enzymes in the excretory-secretory products of the adult stages of the dog hookworm Uncinaria stenocephala

The paper describes an introductory characterisation of proteinases present in the excretory-secretory products (ESP) of adult Uncinaria stenocephala. In SDS-PAGE gelatine substrate gels ESP resolved as a six bands of proteolytic activity, with a molecular weight of 182, 159, 98, 50, 39 and 26 kDa. The 98 and 39 kDa components were serine proteinases. The 50 kDa band was sensitive to a metalloproteinase inhibitor. The 26 kDa component was highly sensitive to cysteine proteinase inhibitors and was also partially inhibited in the presence of EDTA. The bands of 182 and 159 kDa were sensitive to a Zn-metalloproteinase inhibitor. The enzymes present in ESP showed the highest proteolytic activity at pH 8-9. Quantitative analysis revealed maximum proteolytic activity of the polypeptides of 159 and 182 kDa at pH 7; 98 and 26 kDa at pH 8 while the 50 kDa and 39 kDa components showed the highest activity at pH 9.     

Molecular cloning and characterization of a midgut chymotrypsin-like enzyme from the lesser grain borer, Rhyzopertha dominica

A cDNA encoding a chymotrypsinogen-like protein in midguts of the lesser grain borer, Rhyzopertha dominica (F.) (Coleoptera: Bostrichidae) was cloned and sequenced. The 901 bp cDNA contains an 816-nucleotide open reading frame encoding 272-amino acids. The predicted molecular mass and pI of the mature enzyme are 23.7 kDa and 4.64, respectively. The encoded protein includes amino acid sequence motifs that are conserved with 5 homologous chymotrypsinogen proteins from other insects. Features of the putative chymotrypsin-like protein from R. dominica include the serine proteinase active site (His(90), Asp(133), Ser(226)), conserved cysteine residues for disulfide bridges, the residues (Gly(220), Gly(243), Asp(252)) that determine chymotrypsin specificity, and both zymogen activation and signal peptides. A TPCK-sensitive caseinolytic protein (P6) with an estimated molecular mass of 24 kDa is present in midgut extracts of R. dominica and can be resolved by electrophoresis on 4-16% polyacrylamide gels. The molecular mass of this caseinolytic enzyme is similar to that of the chymotrypsin deduced from cDNA. Midgut extracts of R. dominica readily hydrolyzed azocasein and N-succinyl-alanine-alanine-proline-phenylalanine-p- nitroanilide (SAAPFpNA), a chymotrypsin-specific substrate. Properties of the enzymes responsible for these activities were partially characterized with respect to distribution in the gut, optimum pH, and sensitivity toward selected proteinase inhibitors. Optimal activity against both azocasein and SAAPFpNA occurs in a broad pH range from about 7 to 10. Both azocasein and SAAPFpNA activities, located primarily in the anterior midgut region, are inhibited by aprotinin, phenylmethyl sulphonylfluoride (PMSF), and soybean trypsin inhibitor (STI). TPCK (N-alpha-tosyl-L-phenylalanine chloromethyl ketone) and chymostatin inhibited more than 60% of SAAPFpNA but only about 10-20% of azocasein activity. These results provide additional evidence for the presence of serine proteinases, including chymotrypsin, in midguts of R. dominica. Arch. Insect Biochem. Physiol. 43:173-184, 2000.Published 2000 Wiley-Liss, Inc.     

Leishmania amazonensis: involvement of cysteine proteinases in the killing of isolated amastigotes by L-leucine methyl ester

L-leucine-methyl ester (Leu-OMe) kills Leishmania mexicana amazonensis amastigotes by a mechanism which requires proteolytic cleavage of the ester. N-Benzyloxycarbonyl-phenylalanyl-alanyl diazomethane (Z-Phe-AlaCHN2), a specific and irreversible inhibitor of cysteine proteinases, was used to characterize the enzymes involved in parasite destruction. It was shown that (1) amastigotes preincubated with micromolar concentrations of Z-Phe-AlaCHN2 survived challenge with Leu-OMe concentrations lethal to control parasites; (2) the proteolytic activity of 25- to 33-kDa cysteine proteinases in parasite lysates subjected to electrophoresis in gelatin-containing acrylamide gels was selectively inhibited in parasites pretreated with Z-Phe-AlaCHN2 and chased in inhibitor-free medium; and (3) cysteine proteinase activity was also inhibited in gels incubated with amino acid and dipeptide esters, possibly because the compounds were acting either as substrates (e.g., Leu-Leu-OMe) or as inhibitors (e.g., Ile-OMe) of the enzyme. The results support the involvement of low molecular weight cysteine proteinases in the destruction of amastigotes by Leu-OMe. Characterization of the structure and substrate specificity of the enzymes may permit the rational development of more selectively leishmanicidal amino acid derivatives.     

Purification and characterization of a metallo-endoproteinase from mouse kidney.

A metallo-endoproteinase was purified from mouse kidney. The enzyme was solubilized from the 100 000 g sediment of kidney homogenates with toluene and trypsin, and further purified by fractionation with (NH4)2SO4. DEAE-cellulose chromatography and gel filtration. The molecular weight of the metalloproteinase was estimated by gel filtration on Sepharose 6B to be 270 000--320 000. On sodium dodecyl sulphate/polyacrylamide-gel electrophoresis in the presence of 2-mercaptoethanol, a single major protein with a mol.wt. of 81 000 was observed. Thus the active enzyme is an oligomer, probably a tetramer. It is a glycoprotein and has an apparent isoelectric point of 4.3. Kidney homogenates and purified preparations of the metalloproteinase degraded azocasein optimally at pH 9.5 and at I 0.15--0.2. The activity was not affected by inhibitors of serine proteinases (di-isopropyl phosphorofluoridate, phenylmethanesulphonyl fluoride), cysteine proteinases (4-hydroxymercuribenzoate, iodoacetate), aspartic proteinases (pepstatin) or several other proteinase inhibitors from actinomycetes (leupeptin, antipain and phosphoramidon). Inhibition of the enzyme was observed with metal chelators (EDTA, EGTA, 1,10-phenanthroline), and thiol compounds (cysteine, glutathione, dithioerythritol, 2-mercaptoethanol). The metalloproteinase degraded azocasein, azocoll, casein, haemoglobulin and aldolase, but showed little or no activity against the synthetic substrates benzoylarginine 2-naphthylamide, benzoylglycylarginine, benzyloxycarbonylglutamyltyrosine or acetylphenylalanyl 2-naphthyl ester. This metalloproteinase from mouse kidney appears to be distinct from previously described kidney proteinases.     

Midgut proteinases of the cockroachNauphoeta cinerea

The study of properties of proteolytic enzymes in midgut of imago of the cockroachNauphoeta cinerea Oliv. Has been carried out. It is shown that the total proteolytic activity of digestive proteases, measured with azocasein as substrate, is maximal at pH 11.5 both in the anterior and in the posterior parts of the midgut. The predominant part of this activity (67%) was present in the posterior part. Fractionation of preparation from the posterior part on a column with Sephadex G-50 and subsequent analysis of the activity in the obtained fractions using specificp-nitroanilide substrates and effects of activators and inhibitors of active center have allowed revealing three types of activity of serine proteinases and one cysteine proteinase. No activity of aspartic and metalloproteinases were detected. Among serine proteinases, one trypsin-like, one unusual SHdependent serine, one chymotrypsin-like, and not less than two enzymes hydrolyzing specific substrate of subtilisin were established. The fractionation of the preparation from the anterior part has allowed revealing only three proteinases that were similar by their properties to cysteine, SHdependent serine, and chymotrypsin-like ones in the posterior part of midgut. Their activity was lower in the anterior, than in the posterior part of the midgut. The probable causes of the low proteolytic activity in the anterior part of the midgut are discussed.     

A novel metalloproteinase associated with brain myelin membranes. Isolation and characterization

Brain myelin membrane preparations contain a metalloproteinase activity which degrades myelin basic protein (MBP). The activity was associated with lentil lectin-binding glycoproteins solubilized from myelin and could be detected in the presence of the detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propane-sulfonate (CHAPS). The metalloproteinase represented about 5% of this glycoprotein fraction and was isolated from it by chromatography on DEAE-Sephacel, CM-Sepharose, and Superose 6. The proteinase had an apparent relative molecular weight (Mr) of approximately 58,000 both by gel filtration and by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The Mr value was unaffected by the presence of reducing agents but was diminished to about 52,000 by treating the proteinase with endoglycosidase F. The purified proteinase cleaved many bonds in MBP but did not generate trichloroacetic acid-soluble products. Two major polypeptides, putatively MBP1-73 and MBP74-170, were prominent in digests of MBP by either the purified enzyme or myelin membranes. The proteinase was active between pH 7 and 9 and was inhibited by phenanthroline and dithiothreitol but not phosphoramidon or inhibitors of serine or cysteine proteinases. Histones, but not azocasein, also served as substrates for the proteinase. From its enzymic and molecular characteristics the myelin-derived metalloproteinase appears distinct from previously described enzymes.     

Leishmania amazonensis: specific labeling of amastigote cysteine proteinases by radioiodinated N-benzyloxycarbonyl-tyrosyl-alanyl diazomethane

Living Leishmania amazonensis amastigotes were incubated with radioiodinated N-benzyloxycarbonyl-L-tyrosyl-L-alanyl diazomethane (Z-Tyr-AlaCHN2), an irreversible inhibitor of mammalian cathepsins B and L. Parasite lysates were subjected to electrophoresis in gelatin-containing sodium dodecyl sulfate-acrylamide gels to detect regions of proteolytic activity, and the distribution of the inhibitor was ascertained by autoradiography. Of the three main bands of proteolysis associated with cysteine proteinases, two, with apparent molecular weights of 28 and 31 kDa, were shown to be labeled. The third enzyme activity, detected at the 35-kDa region in substrate gels, was only faintly labeled. The distribution of labeled bands was similar when lysates of untreated parasites were electrophoresed and the gels incubated with the radioiodinated inhibitor. Under reducing conditions, the inhibitor bound to polypeptides of 29, 31, 32, and 34 kDa, of which the first and the last were the most intensely labeled. Polypeptides with the same apparent molecular weights were labeled when amastigote lysates were incubated with the 125I inhibitor. Uptake of radioactivity by the parasites was time and concentration-dependent and more than 80% of the total counts could be precipitated with trichloroacetic acid. Radioactivity associated with the amastigotes was quite stable after they were pulsed with labeled inhibitor and chased for up to 24 hr in inhibitor-free medium. Both total uptake and labeling of cysteine proteinases were markedly reduced in parasites preincubated with Z-Phe-AlaCHN2 prior to exposure to Z-Tyr(125I)-AlaCHN2. However, more radioiodinated inhibitor was taken up by parasites preincubated with cold inhibitor and chased in inhibitor-free medium, suggesting de novo synthesis or processing of inactive enzyme precursors.     

An elastinolytic enzyme detected in the culture medium of human arterial smooth muscle cells

The culture medium of human arterial smooth muscle cells exhibits an elastinolytic activity with 68 and 64 kDa on elastin substrate gels. The enzymatic activities are inhibited by ethylenediamine tetraacetic acid, a metalloproteinase inhibitor, but not by other inhibitors of serine, cysteine and aspartic proteinases. The proteinase in the culture medium is activatable by 4-aminophenylmercuric acetate and degrades insoluble elastin. Compared to other matrix metalloproteinases (MMP), the activity shows the similar elastinolytic pattern to that by MMP-2 purified from human rheumatoid synovium, while MMP-3 and MMP-9 have different lytic patterns and MMP-1 possesses no elastinolytic activity. An immunoblot analysis demonstrated that the 68-kDa enzyme is MMP-2. An immunofluorescence study illustrates that MMP-2 is localized within the cytoplasm of the smooth muscle cells. These findings suggest that the elastinolytic enzyme secreted by human arterial smooth muscle cells is MMP-2.     

Two-dimensional zymography in detection of proteolytic enzymes in wheat leaves

Proteolytic enzymes in wheat leaves were studied using zymographic detection of enzyme activities on one-way (1D) SDS-polyacrylamide gels and two-dimensional (2D) ones, on which protein samples were isoelectrofocused prior to PAGE separation. Gelatin of concentration 0.1 %, copolymerized into SDS-PAGE gels, digested by active proteinases enabled detection of those enzymes. On 1D gels, seven bands were seen and assigned to particular families through the use of specific inhibitors. Metalloproteinases inhibited by 20 mM EDTA were detected as 150 kDa band; aspartic proteinases were assigned to 115–118 kDa double band by using 25 mM pepstatin; 10 mM phenylmethylsulfonyl fluoride used for detection of serine proteinases pointed to band of 70 kDa and finally due to 10 μM E-64 inhibitor, cysteine proteinases of 37 and 40 kDa were detected. On 2D gels, additional separation according to protein isoelectric points enabled detection of proteinase isoforms. In the range of 4.5–6 pI, six metalloproteinases as well as ten aspartic proteinases were visible, ten serine- isoforms of pI 4.5–6.8 and four cysteine proteinases of 4.5–5.0 pI were found. Presented results were detected as reproducible results observed at least in four independent biological replications.     

Production of Serine Proteases by the Oyster Pathogen Perkinsus marinus (Apicomplexa) In Vitro

ABSTRACT. Analysis of the cell-free supernatants of Perkinsus marinus cultures by sodium dodecylsulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and silver staining revealed the presence of as many as 17 bands ranging in molecular weight from 239 to 32 kDa. These bands were not present in un-inoculated medium. Moreover, P. marinus produces extracellular proteins that possess proteolytic activities; the cell-free supernatants of P. marinus cultures could digest a variety of proteins including gelatin, casein, fibronectin and laminin. Oyster plasma was also digested by cell-free culture supernatants. The proteolytic activity in cell-free culture supernatants was detected 24 h post-inoculation, while no proteolytic activity could be detected in cell lysates. The proteolytic activities were characterized using substrate-impregnated sodium dodecylsulfate-polyacrylamide gels and had approximate molecular weights ranging from 55 to 35 kDa. The proteolytic activity of cell-free culture supernatants was inhibited by the serine protease inhibitors phenylmethylsulphonyl fluoride, 3,4-dichloroisocoumarin and soybean trypsin inhibitor. In contrast, inhibitors (i.e. trans-epoxysuccinyll-leucylamido(4-guanidino)-butane, 1, 10-phenanthroline, captopril, ethylenediaminetetracetic acid, pepstatin A or diazoacetyl-DL-norleucine methyl ester) from the other three classes of proteases had no effect. It was concluded that the P. marinus proteases in cell-free culture supernatants are serine proteases.     

Recombinant expression and purification of an enzymatically active cysteine proteinase of the protozoan parasite Entamoeba histolytica.

Cysteine proteinases and in particular cysteine proteinase 5 (EhCP5) of Entamoeba histolytica are considered important for ameba pathogenicity. To study EhCP5 in more detail a protocol was elaborated to produce considerable amounts of the enzyme in its active form. The protein was expressed in Escherichia coli as a histidine-tagged pro-enzyme and purified to homogeneity under denaturing conditions in the presence of guanidine-HCl using nickel affinity chromatography. Renaturation was performed by 100-fold dilution in a buffer containing reduced and oxidized thiols, which led to soluble but enzymatically inactive pro-enzyme. Further processing and activation was achieved in the presence of 10 mM DTT and 0.04% SDS at 37 degrees C. Recombinant enzyme (rEhCP5) was indistinguishable from native EhCP5 purified from E. histolytica lysates. Both runs in SDS-PAGE under reducing and nonreducing conditions at positions corresponding to 27 and 29 kDa, respectively, had the same pH optima and displayed similar specific activity against azocasein. Moreover, both enzymes were active against a broad spectrum of biological and synthetic substrates such as mucin, fibrinogen, collagen, human hemoglobin, bovine serum albumin, gelatin, human IgG, Z-Arg-Arg-pNA, and Z-Ala-Arg-Arg-pNA, but not against Z-Phe-Arg-pNA. The identity of rEhCP5 as a cysteine proteinase was confirmed by inhibition with specific cysteine proteinase inhibitors. In contrast, various compounds known to specifically inhibit aspartic, metallo, or serine proteinases had no effect on rEhCP5 activity.     

Analysis of the proteinases of Trypanosoma brucei

A method comprising enzyme separation by SDS-PAGE and subsequent use of peptidyl aminomethylcoumarins as substrates has been used to study proteinases of the protozoan parasite Trypanosoma brucei. The application of this method has allowed investigation of the substrate specificities of individual proteinases in cell lysates without the need for enzyme purification. The results show that T. brucei contains a group of cysteine proteinases, probably four in number, with substrate and inhibitor specificities similar to those of cathepsin L. A second group of proteinases, larger enzymes with significantly different substrate specificities and sensitivity to inhibitors, was also detected. Peptidyl diazomethanes inhibited the cysteine proteinases and also parasite growth, offering promise that peculiarities in the substrate specificity of trypanosomal cysteine proteinases could be exploited by compounds of this type.     

Digestive proteinase activity of the Khapra beetle, Trogoderma granarium Everts (Coleoptera: Dermestidae)

The khapra beetle, Trogoderma granarium, is one of the most important stored product pests worldwide. A study of digestive proteinases in T. granarium was performed to identify potential targets for proteinaceous biopesticides, such as proteinase inhibitors. The pH of guts was determined by addition of pH indicator solutions to broken open gut regions. The last instar larvae were dissected in cold distilled water and the whole guts were cleaned from adhering unwanted tissues. The pooled gut homogenates were centrifuged and the supernatants were used in the subsequent enzyme assay. Total proteinases activity of the gut homogenates was determined using the protein substrate azocasein. Optimal azocasein hydrolysis by luminal proteinases of the larvae of T. granarium was highly alkaline in pH 10-10.5, although the pH of luminal contents was slightly acidic (pH 6.5). The extract showed the highest activity at 55 degrees C (pH 6.5), 45 degrees C (pH 8) and 30 degrees C (pH 10). The proteolytic activity was strongly inhibited in the presence of phenylmethylsulphonyl fluoride (82.33+/-4.37% inhibition). This inhibition was decreased with increasing of the pH of assay incubating medium. N-p-tosyl-L-lysine chloromethyl ketone (51.6+/-3.3% inhibition) and N-tosyl-L-phenylalanine chloromethyl ketone (27.23+/-4.37 % inhibition) showed inhibitory effect on proteolysis. Addition of thiol activators dithiothreitol and L-cysteine had not enhanced azocaseinolytic activity. The data suggest that protein digestion in the larvae of T. granarium is primarily dependent on serine proteinases; trypsin- and chymotrypsin-like proteinases.     

Peptidohydrolases of Soybean Root Nodules : IDENTIFICATION, SEPARATION, AND PARTIAL CHARACTERIZATION OF ENZYMES FROM BACTEROID-FREE EXTRACTS

Nodule extracts prepared from Glycine max var Woodworth possessed endopeptidase, aminopeptidase, and carboxypeptidase activities. Three distinct endopeptidase activities could be resolved by disc-gel electrophoresis at pH 8.8. According to their order of increasing electrophoretic mobility, the first of these enzymes hydrolyzed azocasein and n-benzoyl-l-Leu-beta-naphthylamide, while the second hydrolyzed n-benzoyl-l-Arg-beta-naphthylamine (Bz-l-Arg-betaNA), n-benzoyl-l-Arg-p-nitroanilide (Bz-l-Arg-pNA), and azocasein. The third endopeptidase hydrolyzed Bz-l-Arg-betaNA, Bz-l-Arg-pNA, and hemoglobin. Fractions of these enzymes extracted from electrophoresis gels were shown to have pH optima from 7.5 to 9.8. All of the endopeptidases were completely inhibited by diisopropylphosphorofluoridate, demonstrating that they were serine proteases.Aminopeptidase activity was measured using amino acyl-beta-naphthylamides. Electrophoresis of nodule extracts at pH 6.8 resolved the aminopeptidase activity of nodule extracts into at least four fractions based on mobility and on activities toward amino acyl-beta-naphthylamides. The major activity of two of the aminopeptidases was directed toward l-Leu- and l-Met-beta-naphthylamide, while the other two aminopeptidases exhibited broader specificity and were capable of hydrolyzing a large number of amino acyl-beta-naphthylamides. Two of the aminopeptidases extracted from electrophoresis gels were classified as thiol type enzymes, and all four aminopeptidases had neutral to basic pH optima.     

Fasciola hepatica: A secreted cathepsin L-like proteinase cleaves host immunoglobulin

Adult Fasciola hepatica secrete a cysteine proteinase capable of cleaving host IgG close to the papain cleaving site. The proteinase was separated by size permeation chromatography. Gelatinsubstrate polyacrylamide gel electrophoresis analysis revealed that the proteinase migrates as 6 proteolytic bands in the apparent molecular size range 60–90 kDa. Based on pH profiles of activity, inhibition studies using diethylpyrocarbonate and the diazomethylketone Z-phe-ala-CHN₂, and characterising the substrate specificity of the enzymes using fluorogenic peptide substrates we have shown that the 60–90-kDa proteinases are cathepsin L-Iike proteinases.     

Specific inhibition of mature fungal serine proteinases and metalloproteinases by their propeptides.

The function of the long propeptides of fungal proteinases is not known. Aspergillus fumigatus produces a 33-kDa serine proteinase of the subtilisin family and a 42-kDa metalloproteinase of the thermolysin family. These extracellular enzymes are synthesized as preproenzymes containing large amino-terminal propeptides. Recombinant propeptides were produced in Escherichia coli as soluble fusion proteins with glutathione S-transferase or thioredoxin and purified by affinity chromatography. A. fumigatus serine proteinase propeptide competitively inhibited serine proteinase, with a Ki of 5.3 x 10(-6) M, whereas a homologous serine proteinase from A. flavus was less strongly inhibited and subtilisin was not inhibited. Binding of metalloproteinase propeptide from A. fumigatus to the mature metalloenzyme was demonstrated. This propeptide strongly inhibited its mature enzyme, with a Ki of 3 x 10(-9) M, whereas thermolysin and a metalloproteinase from A. flavus were not inhibited by this propeptide. Enzymatically inactive metalloproteinase propeptide complex could be completely activated by trypsin treatment. These results demonstrate that the propeptides of the fungal proteinases bind specifically and inhibit the respective mature enzymes, probably reflecting a biological role of keeping these extracellular enzymes inactive until secretion.     

Ubiquity of Cysteine- and Metalloproteinase Activities in a Wide Range of Trypanosomatids

We have analysed the proteinase profiles of 11 species from 7 different genera of trypanosomatids by in situ detection of enzyme activities on SDS-PAGE gels containing co-polymerized gelatin as substrate, and the use of specific proteinase inhibitors. Our survey indicates that while cysteine- and metalloproteinases are distributed ubiquitously among trypanosomatids, there are marked differences between the enzyme profiles from the monogenetic (Crithidia, Herpetomonas, Leptomonas) and digenetic (Trypanosoma, Endotrypanum, Phytomonas, Leishmania) species. The detected metalloproteinase activities, ranging in size from 50–100 kDa, partitioned into the detergent-phase after Triton X-114 extraction, while most of cysteine proteinases, of three distinct molecular mass ranges (30–50 kDa, 80–100 kDa and 116–205 kDa), partitioned into the aqueous phase. Thus, within this group of organisms, the metalloproteinase activities seem to be predominantly membrane-associated proteins. We also show that the plant parasites of the genus Phytomonas exhibit a distinctive cysteine proteinase profile that might be exploited further as a criterion for taxonomy of the genus.     

Compartmentalization of proteinases and amylases in Nauphoeta cinerea midgut.

Compartmentalization of proteinases, amylases, and pH in the midgut of Nauphoeta cinerea Oliv. (Blattoptera:Blaberidae) was studied in order to understand the organization of protein and starch digestion. Total proteolytic activity measured with azocasein was maximal at pH 11.5 both in anterior (AM) and posterior (PM) halves of the midgut, but the bulk of activity (67%) was found in PM. Total AM and PM preparations were fractionated on a Sephadex G-50 column and further analysed by means of activity electrophoresis and specific inhibitors and activators. The major activity in PM was classified as an unusual SH-dependent proteinase with M(r) 24,000 and pH optimum with synthetic substrate BApNA at 10.0. The enzyme was 43-fold activated in the presence of 1 mM DTT, insensitive to synthetic inhibitors of serine (PMSF, TLCK, TPCK) and cysteine (IAA, E-64) proteinases, strongly inhibited by STI, and displayed four active bands on zymograms. In PM, activities of trypsin-like, chymotrypsin-like, subtilisin-like, and cysteine proteinases were observed. Aspartic and metalloproteinases were not detected. In AM, activity of unusual SH-dependent proteinase also dominated and activity of chymotrypsin-like proteinase was observed, but their levels were much lower than in PM. Distribution of amylase activity, exhibiting an optimum at pH 6.0, was quite the opposite. The major part of it (67%) was located in AM. Treatment of amylase preparation with proteinases from AM and PM reduced amylase activity twofold. pH of the midgut contents was 6.0-7.2 in AM, 6.4-7.6 in the first and 8.8-9.3 in the second halves of PM. Thus, pH in AM is in good agreement with the optimal pH of amylase, located in this compartment, but the activity of proteinases, including the ability to degrade amylase, in such an environment is low. Active proteolysis takes place in the second half of PM, where pH of the gut is close to the optimal pH of proteinases.     

Mechanism of action of cysteine proteinases: oxyanion binding site is not essential in the hydrolysis of specific substrates

To study the possible stabilization of the oxyanion of the tetrahedral intermediate formed in the course of the catalyses by cysteine proteinases, papain, chymopapain, papaya peptidase A, and ficin, we synthesized N-(benzyloxycarbonyl)phenylalanylthioglycine O-ethyl ester and compared its hydrolysis with that of the corresponding oxygen ester, a highly specific substrate of the above enzymes. It was found that the substitution of sulfur for the carbonyl oxygen hardly affected the second-order rate constant of acylation and diminished catalytic activity by about 1 order of magnitude in deacylation. These results contrast with those obtained with serine proteinases [Asbóth, B., & Polgár, L. (1983) Biochemistry 22, 117-122], where the hydrolysis of thiono esters could not be detected. From the results the following conclusions can be drawn. Stabilization of the tetrahedral intermediate at an oxyanion binding site is not essential with cysteine proteinases. Therefore, and because of the lack of general base catalysis, cysteine proteinases have a less constrained transition-state structure than serine proteinases.     

Thiol-dependent serine proteinase from Streptomyces thermovulgaris

The cultural filtrates of S. thermovulgaris contain a proteinase which is active towards the chromogenic subtilisin substrate, Z-Ala-Ala-Leu-pNa, and azocasein. Pure enzyme preparations were obtained by affinity chromatography on bacitracin-Sepharose with subsequent rechromatography on the same adsorbent. The proteinase was completely inactivated by PMSF and DFP, the specific inhibitors for serine proteinase, by thiol reagents (HgCl2, PCMB) and by the protein inhibitor from S. jantinus. The pH activity optimum for the enzyme is 7.8-8.2, temperature optimum is 55 degrees C. The enzyme is stable at pH 6-9, has a pI of 5.0 and a molecular mass of 32 kDa. When tested against the peptide substrate, the enzyme shows a specificity characteristic for subtilisins. The N-terminal sequence of the enzyme, Tyr-Thr-Pro-Asn-Asp-Pro-Tyr-Phe-Ser-Ser-Arg-Gln-Tyr-Gly, shows a 100% homology with that of terminase, a thiol-dependent serine proteinase. On the basis of the above considerations the enzyme may be related to the subfamily of thiol-dependent serine proteinases.