Proteolytic Activities in Cell Extracts of Trypanosoma cruzi*

SYNOPSIS. Cell extracts of culture forms of Trypanosoma cruzi are capable of hydrolysing substances belonging to 4 different groups of protease substrates: (a) substrates for trypsin-like enzymes: benzoyl-arginine-p-nitroanilide and benzoylarginine-naphtylamide: (b) substrates for aminopeptidases: leucyl. lysyl and glutamyl-β-naphtylamide; (c) a substrate for chymotrypsin-like enzymes: carbobenzoxy-L-tyrosine-p-nitrophenylester, and (d) a nonspecific substrate for a broad range of proteases: azocasein. Some physico-chemical characteristics of each enzymic reaction were studied. They were found to be distinct enough to allow attributing each hydrolytic activity to a separate enzyme.     

Isolation and characterization of five serine proteases with trypsin-, chymotrypsin- and elastase-like characteristics from the gut of the lugworm Arenicola marina (L.) (Polychaeta)

Summary Five proteases were isolated from the digestive fluid of the lugworm, Arenicola marina L. The enzymes (molecular weight 24.0–24.6 kDa) were classified as serine proteases. Three enzymes showed a cleavage specificity corresponding to mammalian trypsin (E.C. 3.4.21.4). One protease possessed a chymotrypsin-like cleavage pattern (E.C. 3.4.21.1), and the fifth preferred cleavage behind short-chain amino acids like an elastase (E.C. 3.4.21.36). Detailed investigations revealed differences in molecular characteristics and cleavage patterns compared to mammalian proteases, especially in the chymotrypsin- and the elastase-like enzymes.Abbreviations APNE N-acetyl-d/l-Phe -naphthyl ester - BANA N-benzoyl-d/l-Arg -naphthylamide - BAPNA N-benzoyl-d/l-Arg-4-nitroanilide - BIGGANA N-benzoyl-l-Ile-l-Glu-Gly-l-Arg-4-nitroanilide - BLPNA N-benzoyl-d/l-Lys-4-nitroanilide - BTEE N-benzoyl-l-Tyr ethyl ester - enzyme T1/T2/T3 trypsin-like enzyme - enzyme ChT chymotrypsin-like enzyme - enzyme E elastase-like enzyme - GPANA N-glutaryl-l-Phe-4-nitroanilide - MUF 4-methylumbelliferryl - MW molecular weight - PMSF phenylmethylsulphonyl fluoride - SAAPPNA N-succinyl-l-Ala-l-Ala-l-Pro-l-Phe-4-nitroanilide - SBTI soybean trypsin inhibitor - SPPNA N-succinyl-l-Phe-4-nitroanilide - TAME N-tosyl-l-Arg methyl ester - TFA trifluoracetic acid - TLCK N-tosyl-l-Lys chloromethyl ketone - TPCK N-tosyl-l-Phe chloromethyl ketone - TRIS tris(hydroxymethyl)aminomethane     

Fermentation characteristics and secretion of proteases of a new keratinolytic strain of Bacillus licheniformis

A keratin-degrading strain of Bacillus licheniformis (K-508) was isolated from partially-degraded feathers and characterised. It had high chicken feather-degrading activity when cultured in feather-containing broth, with a growth optimum at pH 7 and 47 °C. Broth filtrates were active towards N-Bz-Phe-Val-Arg-p-nitroanilide and N-Suc-Ala-Ala-Pro-Phe-p-nitroanilide, as chromogenic protease substrates at pH 8. Strain K-508 displays keratinolytic activity against native feather keratin (without any pretreatment) in the presence of SH-reducing compounds. It constitutively secreted both trypsin-like and chymotrypsin-like proteases.     

Detection of serine proteases in extracts of the domestic mite Blomia tropicalis

Previous studies have shown that the domestic mites Dermatophagoides pteronyssinus and D. farinae contain allergens with serine protease activity. These proteolytic allergens include trypsin, chymotrypsin, elastase, kallikrein, and C3/C5 convertase. However, it is not known whether the domestic mite Blomia tropicalis shares with other mite species the serine protease activities. The enzymatic activity present in extracts obtained from food-free B. tropicalis was investigated using specific substrates and inhibitors. Based upon the concentration response and inhibition profiles, and the digestion of specific substrates our data demonstrate that extracts from B. tropicalis exhibit several serine-protease-like activities. The enzyme activities detected in the B. tropicalis extracts are trypsin, elastase, chymotrypsin, kallikrein, C3/C5 convertase, and mast cell protease. Our results also demonstrate that kallikrein and C3/C5 convertase-like activities were not significantly affected by the α₁-antiprotease, a naturally occurring serine protease inhibitor which protects lung mucosa from the enzymatic action. These data strongly suggest that the Echymyopodidae mite B. tropicalis shares at least five serine proteases with members of other mite families, the Glycyphagidae and Pyroglyphidae. In addition, our data demonstrate the potential use of biochemical methods to detect serine proteases for evaluation of mite growth in vitro, or to detect environmental exposures to these enzymes. This revised version was published online in July 2006 with corrections to the Cover Date.     

Degradation of insect cuticle by Paecilomyces farinosus proteases

The entomopathogenic fungus Paecilomyces farinosus showed proteolytic activity in both solid and semi-liquid culture with gelatin as sole N and C source. Semi-liquid cultures were used to characterise proteases. Zymography of crude culture filtrates showed several bands of gelatin degradation in electrophoresis gels. Gel filtration chromatography of these filtrates revealed two peaks of proteolytic activity. Ion-exchange absorption eliminated gelatin from culture filtrates while retaining activity and was used to semipurify P. farinosus proteases. Semipurified culture filtrates had basic pH (8.5 approx.) optimum for proteolytic activity. Treatment of these filtrates with effectors revealed that P. farinosus proteases are serine proteases containing sulphydryl groups. Isoelectrofocusing combined with zymography revealed the presence of several active basic isoforms. Larvae of the lepidopteran Galleria mellonella showed cuticle damage and protein release 1h after incubation with semipurified extracts of P. farinosus. These results indicate that proteolytic enzymes could be involved in insect host penetration by P. farinosus.     

Activity‐based proteomics reveals nine target proteases for the recombinant protein‐stabilizing inhibitor SlCYS8 in Nicotiana benthamiana

Co‐expression of protease inhibitors like the tomato cystatin SlCYS8 is useful to increase recombinant protein production in plants, but key proteases involved in protein proteolysis are still unknown. Here, we performed activity‐based protein profiling to identify proteases that are inhibited by SlCYS8 in agroinfiltrated Nicotiana benthamiana. We discovered that SlCYS8 selectively suppresses papain‐like cysteine protease (PLCP) activity in both apoplastic fluids and total leaf extracts, while not affecting vacuolar‐processing enzyme and serine hydrolase activity. A robust concentration‐dependent inhibition of PLCPs occurred in vitro when purified SlCYS8 was added to leaf extracts, indicating direct cystatin–PLCP interactions. Activity‐based proteomics revealed that nine different Cathepsin‐L/‐F‐like PLCPs are strongly inhibited by SlCYS8 in leaves. By contrast, the activity of five other Cathepsin‐B/‐H‐like PLCPs, as well as 87 Ser hydrolases, was unaffected by SlCYS8. SlCYS8 expression prevented protein degradation by inhibiting intermediate and mature isoforms of granulin‐containing proteases from the Resistant‐to‐Desiccation‐21 (RD21) PLCP subfamily. Our data underline the key role of endogenous PLCPs on recombinant protein degradation and reveal candidate proteases for depletion strategies.     

Extracellular proteases produced by the wood-degrading fungus Phanerochaete chrysosporium under ligninolytic and non-ligninolytic conditions

When subjected to nitrogen limitation, the wood-degrading fungus Phanerochaete chrysosporium produces two groups of secondary metabolic, extracellular isoenzymes that depolymerize lignin in wood: lignin peroxidases and manganese peroxidases. We have shown earlier the turnover in activity of the lignin peroxidases to be due in part to extracellular proteolytic activity. This paper reports the electrophoretic characterization of two sets of acidic extracellular proteases produced by submerged cultures of P. chrysosporium. The protease activity seen on day 2 of incubation, during primary growth when nitrogen levels are not known to be limiting, consisted of at least six proteolytic bands ranging in size from 82 to 22 kDa. The activity of this primary protease was strongly reduced in the presence of SDS. Following the day 2, when nitrogen levels are known to become limiting and cultures become ligninolytic, the main protease activity (secondary protease) consisted of a major proteolytic band of 76 kDa and a minor band of 25 kDa. The major and minor secondary protease activities were inhibited by phenylmethylsulfonyl fluoride and pepstatin A, respectively. When cultures were grown in the presence of excess nitrogen (non-ligninolytic condition), the primary protease remained the principal protease throughout the culture period. These results identify and characterize a specific proteolytic activity associated with conditions that promote lignin degradation.     

Isolation and Characterization of Hieronymain II, Another Peptidase Isolated from Fruits of Bromelia hieronymi Mez (Bromeliaceae)

From unripe fruits of Bromelia hieronymi Mez (Bromeliaceae), a partially purified protease preparation was obtained by acetone fractionation of the crude extract. Purification was achieved by anionic exchange chromatography (FPLC) on Q-Sepharose HP followed by cationic exchange chromatography (SP-Sepharose HP). Homogeneity of the new enzyme, named hieronymain II, was confirmed by SDS-PAGE and mass spectroscopy (MALDI-TOF-TOF). The molecular mass of was 23,411 Da, and maximum proteolytic activity (more than 90% of maximum activity) was achieved at pH 7.5–9.0 on casein and at pH 7.3–8.3 on Z-Phe-Arg-p-nitroanilide. The enzyme was completely inhibited by E-64 and iodoacetic acid and activated by the addition of cysteine. The N-terminal sequence of hieronymain II (AVPQSIDWRVYGAV) was compared with those of 12 plant cysteine proteases which showed more than 70% of identity. Kinetic enzymatic assays were made on Z-Phe-Arg-p-nitroanilide ( / ). No detectable activity could be found on PFLNA or Z-Arg-Arg-p-nitroanilide.     

Purification and Properties of a Type II-like Dipeptidyl Peptidase from the Ruminal Peptidolytic Bacterium,Prevotella albensis M384

A dipeptidyl peptidase which hydrolyses the synthetic dipeptidyl peptidase (DPP) substrate, Ala₂- p -nitroanilide, was purified 193-fold from the ruminal peptidolytic bacterium, Prevotella albensis M384. The enzyme was a homodimer of molecular mass 91 kDa. Its activity against Ala₂- p -nitroanilide had optimal pH and temperature of 7.2 and 40°C respectively. Enzyme activity was inhibited by the serine protease inhibitors, PMSF and dichloroisocoumarin, but not by inhibitors of other categories of proteases. Synthetic substrates for DPP-1 (GlyArg- p -nitroanilide, GlyArg-4-methoxy-naphthylamide), DPP-3 (ArgArg-4-methoxynaphthylamide) and DPP-4 (GlyPro-4-methoxynaphthylamide) or for leucine or alanine aminopeptidase were not hydrolysed, nor were di- or tripeptides. N-Acetyl-Ala₂- p -nitroanilide was not hydrolysed. Oligopeptides with Ala, Ile, Ser or Val adjacent to the N-terminal amino acid were all hydrolysed, while peptides with basic or acidic residues in the same position were not. The purified DPP from P. albensis is therefore most similar in its catalytic properties to mammalian DPP-2.     

Cadmium induces senescence symptoms in leaf peroxisomes of pea plants

The effect of growing pea (Pisum sativum L.) plants with a toxic CdCl₂ concentration (50 µm ) on the metabolism and proteolytic activity of leaf peroxisomes was studied. In peroxisomes purified from plants treated with cadmium, an increase in the total protein concentration and in the activity and protein level of the photorespiratory enzyme glycolate oxidase was found. The glyoxylate cycle enzymes, malate synthase and isocitrate lyase, whose activity is normally very low in leaf peroxisomes, were enhanced by Cd treatment. The activity of the endogenous proteases of leaf peroxisomes was determined. Two leucine‐aminopeptidase isozymes (AP1‐AP2) were detected, and their activity was slightly higher in Cd‐treated plants. Five endopeptidases (EP1‐EP5) were present in pea leaf peroxisomes, and in plants grown with Cd the activity of isozymes EP1‐EP4 was increased. The ultrastructural analysis of pea leaves showed that Cd produced a disorganization of the chloroplast structure, with an increase in the number of plastoglobuli, and the formation of vesicles in the vacuoles. Taken together, these results indicate that Cd induces senescence symptoms in leaf peroxisomes, and probably a metabolic transition of leaf peroxisomes into glyoxysomes, and suggest that the peroxisomal proteases could participate in the metabolic changes produced by Cd.     

Purification and characterization of proteolytic enzymes from normal and opaque-2Zea mays L. developing endosperms

Purification and characterization of proteases from developing normal maize endosperm and high lysine opaque-2 maize endosperm have been carried out with a view to understand their role in storage protein modification. At day 15, normal maize endosperm had two types of proteolytic enzymes, namely, protease I and protease II, while at day 25 protease n disappeared and in place protease III appeared. However, in opaque-2 maize endosperm at both the stages only one type of enzyme (protease I) was present. These proteases had many properties in common-optimum pH and temperature were respectively, 5.7and 40°C; their activity was inhibited to the extent of 75 –93 % by p-chloromercuribenzoate; trypsin inhibitor inhibited the activity more at early stages of endosperm development; all proteases cleaved synthetic substrates p-tosyl-L-arginine methylesler and N-benzoyl-L-tyrosine ethyl ester and poly-L-glutamic acid. TheKm values of day 15 and 25 normal maize endosperm proteases ranged from 2.73–3.30, while for opaque-2 maize endosperm protease I it was 3.33 mg azocasein per ml assay medium. These enzymes, however, differed with respect to proteolytic activity towards poly-L-lysine. Only normal maize endosperm protease III at day 25 followed by protease II at day 15 showed high activity towards this homopolypeptide suggesting thereby their role in determining the quality of normal maize endosperm protein. Part of Ph.D. thesis submitted by the first author     

The mechanism of deuterium oxide-induced protein degradation in Lemna minor

Transfer of Lemna minor fronds to culture medium containing 50% (v/v) deuterium oxide induces a large increase in the rate of protein breakdown, which is not due to an increase in the activity of acidic or neutral proteolytic enzymes or peptidases. Biochemical and ultrastructural evidence indicates that deuterium oxide affects the properties of certain membranes, particularly the tonoplast, and allows vacuolar proteolytic enzymes to pass into the cytoplasm and cause the increased protein breakdown.Abbreviations BAPA benzylarginine-p-nitroanilide - LPA leucine-p-nitroanilide - TCA trichloroacetic acid     

Intestinal proteolytic profile changes during larval development of Anticarsia gemmatalis caterpillars

Soybean is one of most consumed and produced grains in the world, and Anticarsia gemmatalis is a pest that causes great damage to this crop due to severe defoliation during its larval phase. Plants have mechanisms that lead to the inhibition of proteases in the intestine of these herbivores, hampering their development. Understanding this complex protease inhibitor is important for pest control. The objective of this study was to evaluate the enzymatic profiles of the intestinal proteases of the soybean caterpillar at different instars. For this, the proteolytic profile of the gut in the third, fourth, and fifth instars were analyzed. Irreversible inhibitors of proteases were separately incubated with A. gemmatalis enzyme extracts at the third, fourth, and fifth instar to assess the contribution of these proteases to total proteolytic activity. The enzymatic extracts were also evaluated with specific substrates to confirm changes in the specific activities of trypsin-like, chymotrypsin-like, and cysteine proteases at different instars. The results showed that the protease profile of A. gemmatalis gut changes throughout its larval development. The activity of cysteine proteases was more intense in the first instar. On the contrary, the serine proteases showed major activities in the late stages of the larval phase. Zymogram analysis and protein identification by liquid chromatography–mass spectrometry indicated serine protease as the main protease class expressed in the fifth instar. These results may shift the focus from the rational development of the protease inhibitor to A. gemmatalis and other Lepidoptera, as the expression of major proteases is not constant.     

Purification and Characterization of Hieronymain III. Comparison with Other Proteases Previously Isolated from Bromelia hieronymi Mez

A new proteolytic enzyme, named hieronymain III, has been purified by ion-exchange chromatography from unripe fruits of Bromelia hieronymi Mez. The new peptidase belongs to the cysteine catalytic type, as well as hieronymain I and II, the other two peptidases previously isolated from this species. Hieronymain III showed optimum alkaline pH range (8.6–9.3) and the molecular mass (MALDI-TOF) was 23713 Da. The N-terminal sequence (AVPQSIDWRRYGAVTTSRNQG) exhibited a higher percentage identity with hieronymain II (93%) than with hieronymain I (71%). The three peptidases showed notable differences on synthetic substrates degradation: whereas hieronymain III was the only one able to hidrolyze Z-Arg-Arg-p-nitroanilide, hieronymain I and II could degrade Z-Phe-Arg-p-nitroanilide; on the other hand, PFLNA was only split by hieronymain I. Finally, the three proteases showed different preferences on N-α-CBZ-p-nitrophenyl aminoacid ester substrates. From a biotechnological point of view, cleavage specificity differences are significant enough to use these enzymes as potential tools in that area.     

Action of endogenous proteases on the distribution of tyrosinase isozymes in Harding-Passey mouse melanoma

A high percentage of the total tyrosinase found in Harding-Passey mouse melanoma occurs as a soluble form. This paper shows that melanosomal tyrosinase can be solubilized by several endogenous proteases to yield active tyrosinase. This enzyme, once proteolytically solubilized, can be further degraded, leading to enzyme inactivation. The nature and specificity of the main proteases involved in the solubilization process change depending on the size and necrosis stage of the tumour. Cathepsin B could be the main protease responsible for the solubilization in small tumours (less than 0.5 g). Large tumours are rich in necrotic cells, and cathepsin D and serine-proteases are the main hydrolytic enzymes involved in the proteolytic action on melanosomes. These results support the view that the high activity of tyrosinase found in the soluble fraction of malignant melanoma is mainly an artefact resulting from degradation of melanosomes by a variety of endogenous proteases, rather than the result of the actual occurrence of high levels of an independent cytosolic isozyme.     

Proteolytic activities during growth and aging in the fungus Podospora anserina: Effect of specific mutations

In Podospora anserina five proteolytic enzymes were characterized by chromatographic procedures. Three of these (proteases A, B and C) were found in the cell extracts of growing cultures and the other two (proteases III and IV) were revealed by studies on protoplasmic incompatibility. During growth, only protease C, an acidic enzyme, was active in crude extracts. From the stationary and the poststationary stages this activity decreased and finally disappeared, whereas a neutral serine protease (activity B) became active in crude extracts. A close relationship was observed between the proteolytic activity of the culture filtrates and the intracellular protease(s) concomitantly active in the crude extracts. None of the proteases associated with protoplasmic incompatibility was detected, both in the extra- and intracellular spaces. Qualitative variations in the proteolytic activities during stationary and post-stationary stages depended on the presence of specific genes and mutations: the mod C mutation suppressing protoplasmic incompatibility, inhibits the progressive decrease of protease C and, furthermore, the presence of non allelic incompatibility genes have for consequence the substitution of serine protease B by serine protease A during the poststationary stage.     

Isolation and characterization of a new keratinolytic Bacillus licheniformis strain

A keratin-degrading bacterium strain (K-508) was isolated from partially degraded feathers and characterized. This isolate exhibited a high chicken feather-degrading activity when cultured in feather-containing broth with a growth optimum of pH 7.0 and 47 °C. On the basis of its phenotypic characteristics (quickly moving, Gram-positive rods), the results of metabolic tests and rDNA sequence analysis, it was identified as Bacillus licheniformis. Its fermentation broth showed activity on N-Bz-l-Phe-l-Val-l-Arg-p-nitroanilide, N-Suc-l-Ala-l-Ala-l-Pro-l-Phe-p-nitroanilide, N-CBZ-Gly-Gly-l-Leu-p-nitroanilide and N-CBZ-l-Ala-l-Ala-l-Leu-p-nitroanilide as chromogenic protease substrates at near neutral pH. Both trypsin-like and chymotrypsin-like proteases were constitutively secreted by this strain.     

Stored cysteine proteinases start globulin mobilization in protein bodies of embryonic axes and cotyledons during vetch (Vicia sativa L.) seed germination

Inhibition of protein synthesis by cycloheximide during vetch seed germination, did not prevent globulin breakdown as indicated by a decrease in vicilin- and legumin-specific immunosignals on Western blots. Protein bodies isolated from embryo axes and cotyledons of dry vetch (Vicia sativa L.) seeds using a non-aqueous method were found to be free of cytoplasmic and organellar contaminations. Lysates of these purified protein bodies were capable of degrading globulins; this process was blocked by the cysteine proteinase (CPR) inhibitor iodoacetic acid. Protein bodies contained the papain-like CPR2 and CPR4, and the legumain-like CPR VsPB2. In vitro assays showed that albumin extracts from protein bodies degraded oligopeptide substrates in the PepTag-Assay and degraded the legumain substrate N-benzoyl-asparaginyl-p-nitroanilide. We conclude that, during germination, globulin mobilization is initiated by stored CPRs in protein bodies of embryonic axes as well as cotyledons, and that de-novo-formed proteolytic enzymes mainly mediate bulk degradation of stored globulin in cotyledons after germination. Received: 14 February 2000 / Accepted: 16 August 2000     

Protease production by Leuconostoc oenos strains isolated from wine

Two separate, extracellular proteolytic activities were demonstrated in four strains of Leuconostoc oenos isolated from Argentinian wines. The first took place in the early growth phase and the other had its maximum at the end of growth. The two proteolytic enzymes had different pH and temperature optima. Divalent metal ions had different effects not only on each L. oenos strain but also on each of the two proteases from each strain.     

Purification and properties of an alkaline protease of <Emphasis Type="Italic">Aspergillus clavatus</Emphasis>

An extracellular alkaline serine protease has been purified from a strain of Aspergillus clavatus, to apparent homogeneity, by ammonium sulfate precipitation and chromatography on Sephadex G-75. Its molar mass, estimated by SDS-PAGE, was 35 kDa. Maximum protease activity was observed at pH 9.5 and 40°C. The enzyme was active between pH 6.0 and 11.0 and was found to be unstable up to 50°C. Calcium at 5 mM increased its thermal stability. The protease was strongly inhibited by PMSF and chymostatin as well as by SDS, Tween 80 and carbonate ion. Substrate specificity was observed with N-p-Tos-Gly-Pro-Arg-p-nitroanilide and N-Suc-Ala-Ala-Ala-p-nitroanilide being active substates. Parts of the amino acid sequence were up to 81% homologous with those of several fungal alkaline serine proteases.