Marcia L. Rhoads

Trichinella spiralis: Identification and purification of superoxide dismutase

A metalloprotein with superoxide dismutase activity was isolated and purified from muscle-stage Trichinella spiralis. The anti-genicity of the purified enzyme was demonstrated by an immunospecific reaction with T. spiralis antiserum in an enzyme-linked immunosorbent assay. In addition to its presence in somatic extracts of T. spiralis, the enzyme was also excreted into culture fluids in which the muscle-stage larvae had been incubated for periods as short as 3 hr and up to 72 hr. The enzyme was characterized as a copper- and zinc-containing, cyanide-sensitive, superoxide dismutase with a molecular weight of 36,000 (estimated by get filtration), consisting of two subunits of 17,000 Mr (estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis). The isoelectric point was 5.6. Muscle-stage T. spiralis contained one molecular form of the enzyme, whereas adult T. spiralis contained two molecular forms. This enzyme may function as an essential defense mechanism against the highly destructive superoxide radical encountered either intracellularly, as a product of biological oxidation, or externally, as a component of the hosts immune system.

Efficacy of the immunoblot assay for cysticercosis in pigs and modulated expression of distinct IgM/ IgG activities to Taenia solium antigens in experimental infections

A recently invented immunoblot assay for human cysticercosis was evaluated for efficacy in pigs. The test population consists of 45 pigs with parasitologically confirmed cysticercosis, 47 with heterologous infections, 45 SPF or concrete raised control animals. With this group of 137 animals the test performance was 100% sensitive and 100% specific. The antigen-specific responses of immunoglobulin A (IgA), IgG and IgM in four pigs infected with Taenia solium eggs derived from a human were quantified by immunoblot. Antigen-specific activities were observed as early as 1 week postinfection. The first antigen-specific isotypic response was IgM antibodies directed against a glycoprotein at 97 KD (GP97). This activity generally disappeared between the sixth and ninth week postinfection. Between Weeks 5 and 8, IgG activity rose as IgM activity fell. The IgG activity, however, was directed mostly towards GP50 and GP42 antigens. If the same response occurs in people with cysticercosis, identifying specific isotype activity may help to distinguish new infection from old.

Secretion of an aminopeptidase during transition of third- to fourth-stage larvae of Ascaris suum

Protease activity was identified in culture fluids collected during in vitro development of L3 to L4 larval stages of Ascaris suum. Fluorogenic peptide substrates with unblocked N-termini were specifically hydrolyzed indicating aminopeptidase activity; a terminal arginyl residue was preferred. Culture fluids did not hydrolyze fluorogenic peptide substrates with blocked N-termini (endopeptidase substrates). The aminopeptidase activity was inhibited by 1,10-phenanthroline (metalloprotease inhibitor) and by amastatin and bestatin (aminopeptidase inhibitors); AEBSF (serine protease inhibitor), Z-phe-ala-FMK and E-64 (cysteine protease inhibitors), and pepstatin A (aspartyl protease inhibitor) had little effect on activity. The apparent molecular weight of the aminopeptidase was estimated by sucrose density gradient centrifugation at 293 kDa. The aminopeptidase displayed an acidic isoelectric point of 4.7. The peak secretion of the aminopeptidase was temporally associated with molting and suggests a function for the protease in this complex process.

Taeniasis and Cysticercosis

Taeniasis and cysticercosis are diseases caused by the adult and larval stages of the cestode or tapeworm parasites Taenia saginata and Taenia solium in their definitive host (humans) and intermediate hosts (cattle, pigs, humans). Both species are meat borne parasites that localize as adults in the intestines of the human host. These intestinal infections, termed taeniasis, normally produce only mild symptoms. Eggs passed in the feces of human carriers can cause further disease if ingested by cattle, pigs, or humans. In these intermediate hosts, the egg develops to the larval (cysticercus) stage, and the disease is termed cysticercosis. The larval stage of T. saginata infects cattle, whereas T. solium larvae can infect both pigs and humans. Although larvae invade mainly skeletal muscles, T. solium larvae frequently invade the central nervous system of humans, and is, consequently, a serious public health problem. In livestock, the potential for infection necessitates continuous meat surveillance procedures and, when detected, requires either additional processing of cattle and pig carcasses at slaughter or results in their condemnation, causing a significant economic burden. Disruption of the infection at either life cycle stage effectively would eliminate the disease. The most direct control approach is improvement in sanitation and hygiene for both humans and livestock.

A POTENTIAL DIAGNOSTIC REAGENT FOR BOVINE CYSTICERCOSIS

A fraction of larval Taenia hydatigena cyst fluid was shown to have high sensitivity and specificity in the enzyme-linked immunosorbent assay (ELISA) for the detection of bovine antibodies to the heterologous parasite Taenia saginata. This antigenically active lipoprotein fraction was isolated by ultracentrifugal density flotation using either ammonium sulfate (specific gravity = 1.231 g per ml) or NaCl/KBr (specific gravity = 1.225 g per ml), followed by ion-exchange chromatography. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) indicated that this fraction was composed of high molecular weight (65,000 to 77,000 Mr) and low molecular weight (9,500 to 16,000 Mr) proteins. Electrophoresis under non-denaturing conditions in either acrylamide (5%) or agarose (1%) resulted in 1 major diffuse band staining for both protein and lipid. The high and low molecular weight proteins observed on SDS-PAGE under reducing conditions could not be resolved by gel filtration chromatography and emerged as a single lipoprotein peak. This T. hydatigena cyst fluid fraction appears promising as a diagnostic reagent in the ELISA for bovine cysticercosis.A fraction of larval Taenia hydatigena cyst fluid was shown to have high sensitivity and specificity in the enzyme-linked immunosorbent assay (ELISA) for the detection of bovine antibodies to the heterologous parasite Taenia saginata. This antigenically active lipoprotein fraction was isolated by ultracentrifugal density flotation using either ammonium sulfate (specific gravity = 1.231 g per ml) or NaCl/KBr (specific gravity = 1.225 g per ml), followed by ion-exchange chromatography. Sodium dodecyl sulfate-polyacrylamide gel elec- trophoresis (SDS-PAGE) indicated that this fraction was composed of high molecular weight (65,000 to 77,000 Mr) and low molecular weight (9,500 to 16,000 Mr) proteins. Electrophoresis under non-denaturing conditions in either acrylamide (5%) or agarose (1%) resulted in 1 major diffuse band staining for both protein and lipid. The high and low molecular weight proteins observed on SDS-PAGE under reducing conditions could not be resolved by gel filtration chromatography and emerged as a single lipoprotein peak. This T. hydatigena cyst fluid fraction appears promising as a diagnostic reagent in the ELISA for bovine cysticercosis. A reliable method to detect bovine cysticer- cosis due to Taenia saginata is needed because of the economic losses and public health con- cerns due to this cestode infection. The method of choice for routine serological surveillance of cysticercosis is the enzyme-linked immunosor- bent assay (ELISA). However, the antigenic re- agents currently available for use in this test lack the necessary sensitivity and/or specificity. In- deed, no species-specific immunodiagnostic an- tigen for any larval cestode infection has been reported. This is probably due, in part, to the extensive antigenic overlap that exists not only

Effect of protease class-specific inhibitors on in vitro development of the third- to fourth-stage larvae of Ascaris suum

Third-stage larvae (L3) of Ascaris suum develop and molt to fourth-stage larvae (L4) during in vitro cultivation; consistently greater than 80% of the larvae develop to L4 during 7 days in culture (DIC). To assess the role of proteases in this process, the effect of protease class-specific inhibitors was studied. The presence of either a serine protease inhibitor (AEBSF, 100 microM) or an aspartic protease inhibitor (pepstatin A, 100 microM) had no effect on the percentage of L4 after 7 DIC. However, the presence of either a cysteine protease inhibitor (Z-Phe-Ala-FMK, 100 microM) or an aminopeptidase inhibitor (amastatin, 100 microM) resulted in 77% and 34% reductions, respectively, in the percentage of L4 compared to untreated cultures; viability of the larvae was not affected. The effect of Z-Phe-Ala-FMK on molting was time and dose dependent. In contrast to Z-Phe-Ala-FMK, E-64, another specific inhibitor of cysteine proteases, had no effect on molting. The data support a role for an aminopeptidase and suggest a role for a cysteine protease in the development of the L3 to L4 stage of A. suum.

Synthesis of tyrosine-derived cross-links in Ascaris suum cuticular proteins.

Tritiated dityrosine and isotrityrosine were detected by high performance liquid chromatography (HPLC) of acid hydrolysates of cuticular proteins from larval Ascaris suum following their 96-hr in vitro incubation in [3H]tyrosine. Sixty percent of the HPLC-recovered radiolabel was present as tyrosine, 20% as dityrosine, and 6% as isotrityrosine. Approximately 13% of radioactivity was associated with several unidentified peaks. A similar distribution of radioactivity was observed in acid hydrolysates of cuticular proteins from young adults of A. suum following 48 hr in vitro incubation with [3H]tyrosine. The 2-mercaptoethanol (2ME)-insoluble cuticular protein from the larval stages had a higher rate of synthesis of [3H]dityrosine than did the 2ME-soluble cuticular proteins, whereas the 2ME-soluble cuticular proteins had higher rates of synthesis of [3H]isotrityrosine. Pulse-chase studies of A. suum larvae demonstrated a relatively low rate of synthesis of both dityrosine and isotrityrosine. The addition to the culture media of the peroxidase inhibitors, phenylhydrazine (PHEN), 3-amino-1,2,4-triazole (AT), and N-acetyltyrosine (NAT) reduced the amount of [3H]tyrosine synthesized into both dityrosine and isotrityrosine. In a cell-free system, soluble extracts of A. suum larvae also converted radiolabeled tyrosine to dityrosine; isotrityrosine was produced by some extracts. The rate of conversion correlated with time of incubation and the volume of added extract and was inhibited by AT, NAT, and PHEN, with PHEN being the most potent inhibitor. The results of the present study suggest that the tyrosine residues of the cuticular proteins are posttranslationally modified by the formation of dityrosine and isotrityrosine cross-links. This modification is most likely mediated by a peroxidase.

Purification and characterization of surface-associated proteins from adult Haemonchus contortus.

Extrinsic radioiodination experiments have shown that male and female adults of Haemonchus contortus (BPL strain) express a stage-specific set of surface-associated proteins with apparent molecular mass values of 30, 58, 81, and 143 kDa. A quantitatively different pattern of iodinated surface proteins is expressed by adults of the PPR strain of H. contortus, whereas the pattern of iodinated proteins expressed by Haemonchus similis is qualitatively distinct (38, 68, and 121 kDa). The 58-, 81-, and 143-kDa proteins of the BPL strain are glycosylated, whereas the 30-kDa protein is not. The binding of wheat germ agglutinin to the surface glycoproteins was inhibited by the trimer of N-acetylglucosamine (N,N,N-triacetylchitotroise) but not by the monosaccharide, indicating the presence of chitin-like homopolymers. The carbohydrate portion of the 58-kDa protein is N-linked and accounts for 30% of its apparent mass. Under nonreducing conditions, the 58-kDa glycoprotein forms a high molecular mass polymer that is unable to penetrate a 10% acrylamide gel. The 143- and 81-kDa surface glycoproteins were not hydrolyzed by either N- or O-glycanase, indicating unusual modifications to the saccharide-linkage and rendering it resistant to glycosidase digestion. The 30-, 58-, and 143-kDa purified surface proteins produced distinct peptide maps with Staphylococcus aureus V8 protease.

Characterization of a hemoglobin-like protein from adult Haemonchus contortus.

A hemoglobin-like protein was purified from supernatants of adult Haemonchus contortus extracts by high-pressure liquid chromatography. The purified protein had an M(r) of 33 kDa as determined by size-exclusion chromatography under non-denaturing conditions and an M(r) of 19 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, suggesting the hemoglobin may exist as a dimer. The sequences of 3 peptides resulting from proteolytic digest of the purified protein were determined and demonstrated greater than 50% identity to the globin from Trichostrongylus colubriformis. Adult H. contortus incubated overnight in [3H]leucine, incorporated radioactivity into a peak that coeluted with parasite hemoglobin, indicating the adults synthesize hemoglobin in vitro. The L3-stage lacked hemoglobin, but the L4-stage contained a hemoglobin with an M(r) of 19.6 kDa.

Biochemical and immunochemical characterization of 125I-labeled cuticle components of Haemonchus contortus

Live Haemonchus contortus developmental stages were radioiodinated and then subjected to a stepwise extraction procedure consisting of a buffer extract (with or without detergent) to solubilize putative surface-associated antigenic macromolecules, followed by a detergent/beta-mercaptoethanol (BME) extract to solubilize putative cuticle collagen proteins. A buffer-extracted iodinated 100-kDa protein was present in the free-living, infective L3(2M) stage. This labeled protein was released during in vitro exsheathment of L3(2M) and was not present in the ecdysed second molt (2M) cuticle. In addition to the 100-kDa protein, exsheathment fluid contained a 70-kDa labeled protein that was not extracted from iodinated L3(2M) with either detergent or BME. The data suggest that these proteins are components of the specialized ring portion of the 2M cuticle that is enzymatically ruptured during ecdysis. The L3(2M) and the exsheathed third-stage larvae (L3) contained 3 labeled, BME-extracted, collagenase-sensitive proteins of 108, 88 and 53 kDa. In contrast, four detergent-extracted, collagenase-insensitive, iodinated proteins (143, 81, 58 and 30 kDa) were present in adult H. contortus. The 143-kDa protein was both glycosylated and immunogenic. All 4 adult cuticle proteins were released from the cuticle surface into culture fluids. Furthermore, a cysteine protease was secreted by adults which apparently hydrolyzed the released 81-, 58- and 30-kDa surface proteins.