Purification of cysteine proteinases from adult Schistosoma mansoni

Proteolytic activity against hemoglobin and low molecular weight synthetic substrates has been previously found in homogenates and excretion/secretion products of adult Schistosoma mansoni worms. This activity is stimulated in the presence of thiol compounds and is maximally active at acidic pH. To characterize further this proteolytic activity, lyophilized adult worms were extracted, and proteinases were isolated and purified. From extracts prepared in 0.2 M citrate buffer, pH 4.9, two proteinase species were purified to homogeneity by centrifugation, gel filtration, dialysis, and chromatofocusing chromatography. The proteinases, designated SMw32 and SMw28, have apparent molecular weights (SDS-PAGE) of 31,700 +/- 1400 and 27,800 +/- 1700, respectively. Both are thiol-dependent, acidic endopeptidases that cleave hemoglobin and a synthetic substrate, CBZ-arg-arg-AFC. A statistical comparison of amino acid compositions reveals that the proteinases are highly related.     

Molecular characterization of a vacuolar processing enzyme related to a putative cysteine proteinase of Schistosoma mansoni.

Proproteins of various vacuolar proteins are post-translationally processed into mature forms by the action of a unique vacuolar processing enzyme. If such a processing enzyme is transported to vacuoles together with proprotein substrates, the enzyme must be a latent form. Immunocytochemical localization of a vacuolar processing enzyme, a 37-kD cysteine proteinase, in the endosperm of maturing castor bean seeds places the enzyme in the vacuolar matrix, where a variety of proproteins is also present. To characterize a molecular structure of vacuolar processing enzyme, we isolated a cDNA for the enzyme. Deduced primary structure of a 55-kD precursor is 33% identical to a putative cysteine proteinase of the human parasite Schistosoma mansoni. The precursor is composed of a signal peptide, a 37-kD active processing enzyme domain, and a propeptide fragment. Although the precursor expressed in Escherichia coli has no vacuolar processing activity, a 36-kD immunopositive protein expressed in E. coli is active. These results suggest that the activation of the vacuolar processing enzyme requires proteolytic cleavage of a 14-kD C-terminal propeptide fragment of the precursor.     

A monoclonal antibody from infected mice to a Schistosoma mansoni egg proteinase

A number of monoclonal antibodies were obtained by fusion of SP2/0 myeloma cells and spleen lymphocytes from mice infected with Schistosoma mansoni. These antibodies were tested for their ability to inhibit acidic, thiol-dependent proteinases previously isolated from Schistosoma mansoni eggs and adult worms. One of the monoclonal antibodies isolated inhibits egg proteinase activity measured in vitro with the use of a low m.w. synthetic substrate. This antibody, which is an IgG1 isotype, does not appreciably inhibit an acidic, thiol-dependent proteinase obtained from the adult stage of Schistosoma mansoni. Immunocytochemical methods with the monoclonal antibody have been used to localize the egg proteinase within a set of "penetration" glands in the unhatched miracidium.     

Characterization of cDNA clones encoding a novel calcium-activated neutral proteinase from Schistosoma mansoni

To identify and characterize Schistosoma mansoni proteins that are recognized by infected hosts, we have used a pool of sera from infected humans to screen cDNA libraries constructed from poly(A)+ mRNA of adult S. mansoni. The deduced amino acid sequences of the three isolated clones showed a high degree of similarity to the large subunit of calcium-activated neutral proteinase (CANP) from humans and chicken. These overlapping clones, which include a nearly full-length clone with an open reading frame of 758 amino acid residues, together encode the entire large subunit of CANP. The deduced sequence of this S. mansoni protein can be divided into four domains (I-IV) that include the two domains characteristic of other large subunits of CANP: a thiol-protease domain (II) and a calcium-binding domain (IV) containing EF hand motifs. However, the schistosome protein is unique in having only three EF hand motifs in the calcium-binding domain and in having an additional EF hand motif that is shared between domains II and III. We have shown that these EF hand motifs are capable of binding 45Ca2+. Furthermore, the large subunit is S. mansoni contains an NH2-terminal sequence of 28 residues that is absent from the mammalian CANPs and has a high degree of similarity to the presumed receptor binding sequence of colicin Ia and Ib.     

Acidic thiol proteinase activity of Schistosoma mansoni egg extracts.

Extracts of the eggs of the human blood fluke, Schistosoma mansoni, exhibit proteolytic activity which requires the presence of added thiol reagents or cyanide. The pH optimum for hydrolysis of Azocoll and cartilage proteoglycan is 4.8--5.2 and the molecular weight of the major component is 25--26,000. The effects of inhibitors suggest this activity belongs to the acidic thiol proteinase class, with a similarity to Cathepsin B. These proteinases may be involved in nutrition of the egg or sporocyst, in penetration of eggs or miracidia through host tissues, or in the immunopathology of schistosomiasis.     

Schistosoma mansoni: purification and characterization of the major acidic proteinase from adult worms

We report purification of the major digestive proteinase from adult worms of Schistosoma mansoni. This enzyme is a thiol proteinase with a pH optimum of 5 and is activated by thiol reagents. It was purified 300-fold using a combination of gel chromatography and chromatofocusing. It readily hydrolyzed hemoglobin with an apparent Km of 0.29 microM and a specific activity of 27 micrograms degraded/min/mg enzyme at 37 C. Peptides with positively charged amino acids were preferentially cleaved. The enzyme degraded Boc-Arg-Arg-7-amino-4-methyl coumarin with a kcat/Km of 9083 M-1 sec-1. Lengthening the peptide chain to 3 amino acids or substituting glycine for the amino terminal arginine resulted in decreased activity. The enzyme was inhibited by chloromethylketone-derivatized peptides of similar sequence and by leupeptin. The purified proteinase exhibits microheterogeneity in different preparations with forms ranging in molecular weight from 30,000 to 35,000, and pI 5.7-6.0.     

Schistosoma mansoni: thiol proteinase properties of adult worm "hemoglobinase".

This report presents evidence that the “hemoglobinase” from adult Schistosoma mansoni, first described by Timms and Bueding and later by Senft and his collaborators, belongs to the class of thiol proteinases. Proteolytic activity is stimulated by SH-containing compounds and inhibited by N-ethylmaleimide as well as other inhibitors of thiol proteinases. The enzyme can be partially purified by affinity chromatography using a Sepharose-linked organomercurial ligand. In addition to its activity on globin and hemoglobin, the enzyme can also be assayed with Azocoll, a general protease substrate, and by the activation of inactive trypsinogen to active trypsin. Extraction of the enzyme is enhanced by the addition of the nonionic detergent Triton X-100.     

Uridine phosphorylase from Schistosoma mansoni

Uridine phosphorylase is the only pyrimidine nucleoside cleaving activity that can be detected in extracts of Schistosoma mansoni. The enzyme is distinct from the two purine nucleoside phosphorylases contained in this parasite. Although Urd is the preferred substrate, uridine phosphorylase can also catalyze the reversible phosphorolysis of dUrd and dThd, but not Cyd, dCyd, or orotidine. The enzyme was purified 170-fold to a specific activity of 2.76 nmol/min/mg of protein with a 16% yield. It has a Mr of 56,000 as determined by molecular sieving on Sephadex G-100. The mechanism of uridine phosphorylase is sequential. When Urd was the substrate, the KUrd = 13 microM and the KPi = 533 +/- 78 microM. When dThd was used as a substrate, the KdThd = 54 microM and the KPi = 762 +/- 297 microM. The Vmax with dThd was 53 +/- 9.8% that of Urd. dThd was a competitive inhibitor when Urd was used as a substrate. The enzyme showed substrate inhibition by Urd, dThd (greater than 0.125 mM) and phosphate (greater than 10 mM). 5-(Benzyloxybenzyloxybenzyl)acyclouridine was identified as a potent and specific inhibitor of parasite (Ki = 0.98 microM) but not host uridine phosphorylase. Structure-activity relationship studies suggest that uridine phosphorylase from S. mansoni has a hydrophobic pocket adjacent to the 5-position of the pyrimidine ring and indicate differences between the binding sites of the mammalian and parasite enzymes. These differences may be useful in designing specific inhibitors for schistosomal uridine phosphorylase which will interfere selectively with nucleic acids synthesis in this parasite.     

Schistosoma mansoni: proteinase activity of "hemoglobinase" from the digestive tract of adult worms

A method of collecting samples from the Schistosoma mansoni digestive tract was used to study proteinase activity. Activity against hemoglobin and a low molecular weight synthetic substrate, carbobenzoxy-arginyl-arginyl-7-amino-4-trifluoromethylcoumarin, was demonstrated in the soluble fraction of material regurgitated by S. mansoni adults and was dependent on the addition of a thiol compound, cysteine, to the assays. Using sodium dodecyl sulfate-polyacrylamide gel electrophoresis and gel filtration chromatography (AcA54), two proteins with estimated mol wt of 32,500 and 28,500 were found in the regurgitant and were associated with proteinase activity against both hemoglobin and the synthetic substrate. Homogenates of intact worms showed greater specific activity (synthetic substrate) in the females. Further, in bisected worms proteinase activity paralleled protein content, suggesting that, once secreted into the lumen, proteinase activity was distributed throughout the worm digestive tract.     

Schistosoma mansoni: expression and role of cysteine proteinases in developing schistosomula

The adult stage of Schistosoma mansoni utilizes host hemoglobin as a nutrient source. A proteolytic enzyme (SMw32) that has "hemoglobinase" activity is secreted into the parasite gut where it appears to be rapidly activated by glutathione released from host red blood cells. In the present study the expression of this proteinase, in developing schistosomula, has been correlated with digestive tract development and a dramatic rise in enzyme activity as early as Days 8-10 of culture. No evidence of the SMw32 proteinase was found in eggs, cercariae, or in newly transformed larvae. Further, the proteinase expressed at Days 8-10 is indistinguishable from the adult worm enzyme. In the larvae, indirect immunofluorescence with an anti-SMw32 monoclonal antibody showed that the proteinase is found throughout the developing cecum. The importance of cysteine proteinases to parasite development was also studied using a specific enzyme inhibitor, Ep-459. In cultures containing Ep-459 most (75%) of the schistosomula failed to survive the 18-day study period. Moreover, those that did survive showed a decrease in their growth (body length). These data suggest that the SMw32 proteinase is a developmentally regulated enzyme and that cysteine proteinase activity is essential in providing nutrients for the growth and survival of this parasite in its mammalian host. Thus, this proteinase may be an important target for chemotherapeutic intervention.     

Schistosoma mansoni: activation of hemolytic activity in homogenates from live adult worms

We have previously described hemolytic activity in extracts of lyophilized Schistosoma mansoni adult worms. In contrast, freshly homogenized live worms have little hemolytic activity. However, preincubation of the homogenate at 38 C, pH 5.1 for 22 hr resulted in an 18 fold increase in specific activity (Hb released/mg protein) due to dramatic increases in hemolytic activity and decreases in protein concentration. No activation occurred when the homogenate was boiled prior to preincubation or when preincubation was performed at 4 C. In addition, a thermostable inhibitor of hemolytic activity is present in freshly homogenized live adult S. mansoni. Hydrolysis of the inhibitor and activation of the hemolytic agent appear to be due in part to hydrolytic activity of one or more cysteinyl proteinases.     

Purification and characterization of an elastinolytic proteinase secreted by cercariae of Schistosoma mansoni

An elastinolytic proteinase secreted by tissue-invasive larvae of Schistosoma mansoni has been purified to homogeneity. Size-exclusion chromatography and chromatofocusing were used to purify the enzyme 18-fold from crude larval secretions. The native enzyme has a molecular weight of 30,000, a pI of 8, a pH optimum of 9, and a calcium dependence of 2 mM. A second Mr 17,000 form of the enzyme was present in crude secretions and appears to be an autoproteolysis product. The enzyme is a serine proteinase that preferentially binds tetrapeptide inhibitors or substrates with an aromatic or hydrophobic residue at the P-1 site. In addition to being active against elastin, the enzyme degrades Azocoll, gelatin, laminin, fibronectin, keratin, and type IV collagen.     

Mapping the Catalytic Cycle of Schistosoma mansoni Thioredoxin Glutathione Reductase by X-ray Crystallography

Schistosomiasis is the second most widespread human parasitic disease. It is principally treated with one drug, praziquantel, that is administered to 100 million people each year; less sensitive strains of schistosomes are emerging. One of the most appealing drug targets against schistosomiasis is thioredoxin glutathione reductase (TGR). This natural chimeric enzyme is a peculiar fusion of a glutaredoxin domain with a thioredoxin selenocysteine (U)-containing reductase domain. Selenocysteine is located on a flexible C-terminal arm that is usually disordered in the available structures of the protein and is essential for the full catalytic activity of TGR. In this study, we dissect the catalytic cycle of Schistosoma mansoni TGR by structural and functional analysis of the U597C mutant. The crystallographic data presented herein include the following: the oxidized form (at 1.9 Å resolution); the NADPH- and GSH-bound forms (2.3 and 1.9 Å, respectively); and a different crystal form of the (partially) reduced enzyme (3.1 Å), showing the physiological dimer and the entire C terminus of one subunit. Whenever possible, we determined the rate constants for the interconversion between the different oxidation states of TGR by kinetic methods. By combining the crystallographic analysis with computer modeling, we were able to throw further light on the mechanism of action of S. mansoni TGR. In particular, we hereby propose the putative functionally relevant conformational change of the C terminus after the transfer of reducing equivalents from NADPH to the redox sites of the enzyme.     

Neuronal activation and plasticity in Schistosoma mansoni infected mice

Schistosomiasis leads to structural and functional changes which may result from unbalanced release of some inflammatory mediators. The aim of the study was to investigate the effect of intestinal parasitic infection on nitric oxide release and to evaluate the neural plasticity that leads to motility disturbance. Experiments were performed in Swiss mice 8- and 12-weeks following infection with Schistosoma mansoni compared to untreated controls. Jejunal motility was assessed using a Trendelenburg preparation to study aboral directed peristaltic pressure waves. Histological examination was used to determine the pathological characteristics of inflammation.Parasitic infection produces diffuse inflammatory infiltrate in both 8- and 12-weeks infected animals. Inflammation had significant effect on peristaltic pressure waves amplitude and intervals at 8-weeks compared to control; whereas, in 12-weeks post infection there was a significant decrease in peristaltic pressure waves amplitude and interval compared to 8- weeks and control.Nitric oxide synthase inhibitor (L-NAME 100 μM) induced a significant increase in amplitude and decrease in intervals in control, 8- and 12- weeks infected animals. In conclusion, parasitic infection leads to disturbance in the release of the inflammatory mediators. This study indicated the role of nitric oxide in developing granulomatous inflammation and participating in motility disturbance.