Abstract
Anti-Gal is a natural antibody present in unusually high concentrations in human sera. It constitutes as much as 1% of circulating IgG and displays a distinct specificity for the Gal alpha 1----3Gal carbohydrate epitope. In the present study, we have found in the sera of patients with Chagas' disease and Leishmania infection anti-Gal titers 10- and 16-fold higher than that of healthy or bacteria-infected individuals. This increase in anti-Gal titer seemed to be the result of a specific immune response toward parasitic Gal alpha 1----3Gal epitopes. Binding studies of affinity chromatography-purified anti-Gal antibodies to Trypanosoma cruzi and American Leishmania parasites indeed demonstrated the presence of Gal alpha 1----3Gal epitopes on these parasites. This finding was supported by the observed binding to the parasites of two additional Gal alpha 1----3Gal recognizing molecules: the mAb Gal-13, and the lectin, Bandeiraea simplicifolia I B4. Furthermore, the binding of both anti-Gal antibody and of the B. simplicifolia I B4 lectin could be inhibited by galactose, and not glucose. In addition, removal of the terminal alpha-galactosyl residues from the parasites by pretreatment with alpha-galactosidase, or the oxidation of the binding epitopes by periodate prevented the subsequent binding of both the antibody and the lectin. A crude leishmanial lipid extract readily bound these three reagents, suggesting that at least part of these epitopes are of a glycolipid nature. These Gal alpha 1----3Gal epitopes may thus serve as an antigenic source for the excess production of anti-Gal. In view of the naturally high level of anti-Gal in humans and its binding to T. cruzi and Leishmania, it is argued that these antibodies may contribute to the natural defense against the invasion of such parasites.
