K. Darwin Murrell

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.

Trichinella spiralis: genetic evidence for synanthropic subspecies in sylvatic hosts.

Isolates of the nematode genus Trichinella from sylvatic hosts differ in their potential to reproduce in domestic swine. The structure of the genomic DNA from 13 sylvatic isolates from North America and 5 pig isolates, 4 from North America and 1 from Asia, was examined and correlated with the infectivity of the isolate for domestic pigs. DNA restriction fragment length differences, identified by ethidium bromide staining and by hybridization with 32P-labeled ribosomal RNA, served as molecular markers to classify each isolate. All 5 pig isolates and 8 of 13 sylvatic isolates had a high infectivity and reproductive capacity in pigs. All isolates that were highly infectious for pigs regardless of host origin had similar DNA characteristics and were classified operationally as T. spiralis spiralis (pig) and those of the second group as T. spiralis ssp. A DNA clone of repetitive DNA from T. s. spiralis, pBP2, was selected from a library of genomic DNA in plasmid pUC8. When used as a probe, pBP2 hybridized only to the DNA of T. s. spiralis isolates, thus making it a useful diagnostic reagent to predict whether new isolates are highly infectious for pigs (i.e., T. s. spiralis). These results show that T. s. spiralis occurs in wild mammals and this should be considered a serious obstacle to efforts to eradicate trichinellosis from domestic swine.

Trichinella spiralis in an agricultural ecosystem : transmission in the rat population

Four hundred forty-three Norway rats (Rattus norvegicus) were examined to determine their role in the transmission and maintenance of Trichinella spiralis on a pig farm. Rats, classified by sex and weight, were examined for trichinellosis by peptic digestion of muscle samples. Over a 25-mo period, 188 (42.4%) rats were found to be infected with T. spiralis. The mean intensity of infection was 293.2 larvae per gram (LPG) of muscle; 65 (34.6%) infected rats had intensities of infection greater than 100 LPG. Even in the absence of a known source of infected meat (garbage containing meat scraps or dead animals), the rat population maintained the infection, probably through cannibalism. Population reduction was an effective method for reducing the prevalence of infection within the rat population. Therefore, to reduce the likelihood of transmission of T. spiralis between rats and swine, it is essential that rat populations in a farmyard environment be controlled.

Immunogenetic analysis of Trichinella spiralis infections in swine

The immune responses of outbred swine, inoculated with several different low doses of Trichinella spiralis muscle larvae (ML), was followed over 5-6 weeks of primary infection, in order to determine an inoculation dose which could be used to identify genetic controls on the response to this helminth parasite. Reproducible infections were established when swine were inoculated with 100-300 ML. Humoral antibody responses to different larval stages were evident at 4 weeks using enzyme-linked immunosorbent assay (ELISA) of antibody-binding to excretory-secretory (ES) products of ML, and flow cytometric (FCM) analysis of antibody-binding to newborn larvae. T-cell blastogenesis to T. spiralis ML antigens was predominantly in the CD4+, class II restricted, T-cell subset. Having established an appropriate inoculation dose, swine leukocyte antigen (SLA) inbred miniature swine were then inoculated with this low dose of T. spiralis ML, to determine whether major histocompatibility complex (MHC) genes regulate swine immune responses to T. spiralis, as has been found in rodent models. Preliminary evidence indicated that swine of the SLA c/c haplotype may exhibit a lower burden of T. spiralis larvae in the tongue and diaphragm. This lower muscle burden correlated with the earlier development of a humoral antibody response in these genetically-defined swine.

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.

Schistosoma mansoni: antigenic heterogeneity of excretions and secretions

Abstract The excretory-secretory antigens of adult Schistosoma mansoni were obtained by in vitro cultivation of worms in a chemically-defined medium. The protein output in this system was low, 0.2–0.4 μg of proteinworm/48 hr. The composition of the crude culture antigen (CA) was approximately 80% protein, 15% carbohydrate and 5% nucleic acid. Disc gel electrophoresis of CA revealed the presence of at least 15 protein components, many with carbohydrate moieties. Three major fractions were obtained by gel filtration on Sephadex G-200. Fraction I contained the bulk of the glycoprotein material. Immunoelectrophoresis of CA with hyperimmune rabbit serum indicated the presence of at least 6 antigens, most of which eluted in Fraction II. Serum from infected mice and monkeys, but not from rabbits and rats, reacted with CA and its fractions, especially Fraction II, on immunodiffusion analysis. Comparison of CA with other adult worm extracts by immunodiffusion techniques showed that most of the excretory-secretory antigens could be obtained by either freezing and thawing or by extraction with 3 M KCl. The P.K.-type activity of CA was considerably greater than that of a lipid-free adult worm antigen. Both Fractions I and II had the P.K.-type activity. An antigen capable of eliciting macrophage migration inhibition factor from infected rat lymphocytes was detected in CA, although the lymphocyte toxicity of CA was high at concentrations above 10 μg/ml.

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

ISOLATION AND CHARACTERIZATION OF SURFACE ANTIGENS FROM SCHISTOSOMA MANSONI. I. EVALUATION OF TECHNIQUES FOR RADIOISOTOPE LABELING OF SURFACE PROTEINS FROM ADULT WORMS

Radiolabeled surface proteins of adult Schistosoma mansoni were prepared by in vitro labeling of whole worms, and by labeling freeze-thaw surface membrane extracts. Incorporation of 125I into surface proteins was attempted using the lactoperoxidase, chloramine-T, iodosulfanilic acid, and Bolton-Hunter methods. Radiolabeling of whole worms with lactoperoxidase, chloramine-T and iodosulfanilic acid yielded a single protein peak (mol wt greater than 100,000) on SDS-PAGE, and showed considerable incorporation of label in the lipid fraction. Bolton-Hunter labeling of whole worms yielded four major peaks with molecular weights of 100,000, 60,000, 30,000 and 21,000, and minor peaks with molecular weights of 26,000, 36,000, 43,000, 68,000 and 78,000; three of the four major peaks corresponded to prominent bands in Coomassie blue-stained gels. Although carbohydrate-labeling techniques were not successful, a single carbohydrate band, molecular weight greater than 100,000, was detected was PAS staining. Radiolabeling of freeze-thaw extracts yielded results similar to those obtained with whole worms. Electron microscopy revealed the tegument to be left intact and undamaged after labeling with the Bolton-Hunter reagent.

Comparison of methods for recovery of Ascaris suum larvae from tissues of mice

Experiments were undertaken to compare procedures for isolating Ascaris suum from mice. A standardised intragastric procedure for inoculation of A. suum eggs, which had a very low interdose variation (S.D. = 6.2% of mean inoculation dose), was developed. There was no significant difference in the number of larvae recovered from the large intestine 4 h post inoculation (p.i.) by using either Baermannisation of washed intestinal wall or submucosal scrapings. In contrast, a significantly higher recovery of larvae was achieved by incubating the intestines vertically in a cylindrical saline-filled funnel. An agar-gel method was used to recover larvae from mucosal scrapings; however, the number of larvae recovered was the lowest of the methods tried. It was found that a significant increase in larval recovery from the liver at 24 h p.i. resulted when the liver was pressed through a garlic press, rather than by using homogenisation. For lung recovery, the highest recovery of larvae (at day 8 p.i.) was obtained by disintegration of tissue with a pair of scissors and incorporating the tissue into agar-gel. The methods presented in this study may be useful for investigation of the histology, morphology and molecular biology of the early of A. suum.

Trichinella spiralis in an agricultural ecosystem. III. Epidemiological investigations of Trichinella spiralis in resident wild and feral animals.

As part of a larger epidemiological study examining the transmission of Trichinella spiralis in an agricultural ecosystem, resident wild and feral animals were trapped to determine the extent of their involvement in the natural, on-farm cycling of the parasite among swine. During a 21-mo-study, seven of 15 skunks (Mephitis mephitis), one of three opossums (Didelphis virginiana), two of two feral domestic cats and a raccoon (Procyon lotor) were found to be infected, while five shrews (Blarina brevicauda) and 18 deer mice (Peromyscus spp.) were uninfected. Most of the former hosts probably became infected by scavenging dead infected swine or rats (Rattus norvegicus). However, infections obtained through predation of living rats, particularly with regard to the cats, cannot be excluded. Our observations do not suggest that there was transmission of T. spiralis from the wild animals to swine. Therefore, transmission of T. spiralis appeared to occur only from the farms swine and rats to the associated wild and feral animals.