Participation of parasite surface glycoproteins in antibody-mediated protection of epithelial cells against Trichinella spiralis.

The L1 stage of the parasitic nematode Trichinella spiralis displays on its surface glycoproteins that are immunologically cross-reactive with several larval excretory-secretory (ES) products. The basis for the cross-reactivity is tyvelose, the terminal residue on the complex glycans shared by these surface and ES glycoproteins. In neonatal rats, tyvelose-specific monoclonal antibodies mediate the expulsion of larvae from the intestine. The aim of the studies described in this report was to determine how antibody binding to larval surfaces contributes to expulsion. In these experiments, which involve an in vitro assay of epithelial cell invasion, surface proteins on living larvae were biotinylated to distinguish them from ES products. Biotinylated and nonbiotinylated larvae were cocultured with avidin, biotin-specific antibodies, or anti-tyvelose monoclonal antibodies. Biotinylated larvae cultured with avidin or biotin-specific antibodies invaded Madin-Darby canine kidney (MDCK) cells equally as well as biotinylated larvae cultured with medium alone. Anti-tyvelose monoclonal antibodies were highly protective in this assay; however, biotinylation of larval surfaces hindered the ability of anti-tyvelose monoclonal antibodies to prevent larval invasion of epithelial cells. This correlated with a reduction in the binding of anti-tyvelose antibody to biotinylated larval surfaces. Our results indicate that antibody binding to surface glycoproteins contributes to protection against T. spiralis invasion but that surface binding alone is not sufficient for protection. Our findings support the notion that protection is effected by cross-linking of ES products to surface antigens.