The alpha1,3GalT knockout/alpha1,2FucT transgenic pig does not appear to have an advantage over the alpha1,3GalT knockout pig with respect to glycolipid reactivity with human serum antibodies

Abstract

The human H-transferase (α2FucT) was introduced in Gal-negative pigs to produce pig organs not only free from Gal-antigens, but also in which the uncapped N-acetyllactosamine precursor had been transformed into non-xenogenic blood group H type 2 compounds. This work is the first descriptive analysis of glycolipids from the GalT-KO/FucT-TG pig. The aim was to investigate the cell membrane antigens in GalT-KO/FucT-TG tissues to explore its efficacy as an organ donor. Also, detailed knowledge on the correlation between the cellular glycosyltransferase configuration and the resulting carbohydrate phenotype expression is valuable from a basic glycobiological perspective. Neutral and acidic glycolipids from GalT-KO/FucT-TG small intestine were compared with glycolipids from two wildtype and two GalT-KO pig intestines. Glycolipid reactivity was tested on thin layer chromatography plates using chemical reagents, antibodies, lectins, and human serum. Structural characterization of neutral glycolipids was performed by LC-ESI/MS and proton NMR spectroscopy. Characterization of the glycolipid expression in GalT-KO/FucT-TG intestine showed absence of Gal antigens and decreased/unchanged levels of the N-acetyllactosamine precursor and the blood group H type 2 expression, when compared with the wildtype. The reactivity of human serum antibodies to GalT-KO/FucT-TG derived glycolipids was similar or slightly elevated when compared with GalT-KO glycolipids. Results from LC-ESI/MS and proton NMR spectroscopy revealed no established neutral xenogenic antigens in the GalT-KO/FucT-TG pig, and could thus not explain the immunologic reactivity to human serum antibodies. The antibody binding to acidic glycolipids is most likely to be explained by the abundance of N-glycolylneuraminic acid epitopes in pig tissues. Six neutral complex biantennary glycolipids with blood group H type 1, 2, Lewis(x) and Lewis(y) determinants were found, of which three were identified in this work for the first time. One of these was a nonaglycosylceramide with blood group H type 2 and lactosyl determinants linked to a lactotetraosyl core, and the other two were decaglycosylceramides with blood group H type 1 and H type 2 determinants linked to a neolactotetraosyl core, and Lewis(x) and blood group H type 1 determinants on a lactotetraosyl core, respectively. Lipid-linked carbohydrate antigens in the GalT-KO/FucT-TG pig intestine showed no or minor qualitative difference when compared with GalT-KO pigs. The GalT-KO/FucT-TG pig did not appear to have an advantage over the GalT-KO pig with respect to reactivity with human antibodies from a xenotransplantation perspective.