A novel pentaglycosylceramide in ostrich liver, IV4-beta-Gal-nLc4Cer, with terminal Gal(beta1-4)Gal, a xenoepitope recognized by human natural antibodies.

Thin layer chromatograms of ostrich liver neutral glycosphingolipids were immunostained with human sera. In addition to the expected staining of the Forssman pentaglycosylceramide by some sera, more polar and less abundant unknown glycolipids could be stained. Among them, the shortest carbohydrate chain glycolipid was purified and structurally characterized by mass spectrometry, proton NMR and methylation analysis. It was a novel pentaglycosylceramide of the neolactoseries terminated with the Gal(beta1-4)Gal determinant which is not expressed in mammalian species. Human antibodies affinity-purified on a synthetic Gal(beta1-4)Gal(beta1-4)Glc-Sepharose column recognized the newly characterized Gal(beta1-4)Gal-terminated pentaglycosylceramide, and, in addition, longer chain glycolipids. Occurrence of antibodies directed at the Gal(beta1-4)Gal epitope was studied by ELISA on 108 human sera. Anti-Gal(beta1-4)Gal antibodies were predominantly IgM, and their distribution was similar to that of anti-Gal(alpha1-3)Gal and anti-Forssman IgMs. It was concluded that anti-Gal(beta1-4)Gal are natural antibodies, not previously identified in man. They can be considered as xenoantibodies directed at species which express Gal(beta1-4)Gal-terminated carbohydrate chains.

A novel synthesis of alpha-D-Galp-(1-->3)-beta-D-Galp-1-O-(CH2)3-NH2, its linkage to activated matrices and absorption of anti-alphaGal xenoantibodies by affinity columns.

Pig organs transplanted into primates are rapidly rejected because of the interaction between Gal alpha(1-->3)Gal epitopes carried by the graft and natural antibodies (anti-alphaGal antibodies) present in the blood of the recipient. This report describes a simplified synthesis of the xenogeneic disaccharide and its linkage to activated gel matrices. The digalactosides alpha-D-Galp-(1-->3)-alpha,beta-D-Galp-OAll were synthesized by the condensation of the trichloroacetimidoyl 2,3,4,6-tetra-O-benzyl-beta-D-galactopyranoside donor with the 3,4-unprotected allyl 2,6-di-O-benzyl-alpha- or beta-D-galactopyranoside acceptor precursor. Deallylation and hydrogenolysis led to the free digalactoside, whereas hydrogenolysis alone resulted in the 1-O-propyl digalactoside. Both products were tested by inhibition ELISA of natural anti-Gal alpha(1-->3)Gal antibodies. The alpha-D-Galp-(1-->3)-beta-D-Galp-OPr was found to be the best inhibitor. Thus, the allyl group of the partially benzylated alpha-D-Galp-(1-->3)-beta-D-Galp-OAll was engineered, via the hydroxy-, the tosyloxy- and the azidopropyl intermediates, into an aminopropyl group amenable to binding to N-hydroxysuccinimide-activated agarose gel matrices in order to obtain specific immunoabsorption columns. Columns made of gel substituted with 5 micromol of disaccharide per milliliter were found efficient for the immunoabsorption of anti-alphaGal antibodies from human plasma.

Forssman penta- and tetraglycosylceramide are xenoantigens of ostrich kidney and liver.

The heterophile antigens Galalpha1-->3Gal and N-glycolylneuraminic acid are the major obstacle to grafting mammal organs, especially from pig, to man. Lack of expression of these common xenoantigens by birds has raised interest in ostrich as a potential organ donor for xenotransplantation. Glycosphingolipids of ostrich liver and kidney were investigated for their carbohydrate determinants. Both organs were found similar in their glycolipid composition with three major species, mono-, di-, and pentaglycosylceramide. The pentaglycosylceramide was characterized as the Forssman antigen. In both organs, the ceramide portion was highly hydroxylated with prevalence of alpha-hydroxylated fatty acids, C18 phytosphingosine in kidney and C18 sphingosine in liver Forssman glycolipid. These data indicate that hydroxylation of kidney glycosphingolipids, which is found in mammals, has been maintained since the divergence of birds from other vertebrates. Characterization of a minor glycolipid as a Forssman tetraglycosylceramide built on the galabiosylceramide core indicates that the Forssman tetraglycosylceramide also exists in vivo. Its precursors, galactosyl- and galabiosylceramide, were characterized in kidney and liver. The Forssman antigen is the third heterophile antigen against which man raises natural antibodies. Its localization in the vascular endothelium and connective tissue makes ostrich an unpromising organ or cell donor for xenotransplantation to man.

Two novel isoneolacto-undecaglycosylceramides carrying Galalpha1-->3Lewis(x) on the 6-linked antenna and N-acetylneuraminic acidalpha2-->3 or Galactose alpha1-->3 on the 3-linked antenna, expressed in porcine kidney.

Three sialosylated and three neutral glycosphingolipids sharing a common iso-neolacto core were isolated from porcine kidney cortex. They were purified by preparative HPTLC, and were characterized by partial exoglycosidase hydrolysis followed by thin layer chromatography and immunostaining with anti-Galalpha1-->3Gal, anti-type 2 lactosamine and anti-Lewis(x) antibodies, methylation analysis, MALDI-TOF mass spectrometry and 1H-NMR spectroscopy. Among neutral glycolipids, one was a known structure, VI3VI'3(alphaGal)2-iso-nLc8Cer, and two were novel structures differing by the number of Galalpha3Lewis(x) determinants: VI3VI'3(alphaGal)2V'3alphaFuc-iso-nLc8, and VI3VI'3(alphaGal)2 V3V'3(alphaFuc)2-iso-nLc8. The single Galalpha3Lewis(x) determinant was found on the 6-linked antenna. Among sialosylated glycolipids, two had been previously found in other species and tissues, VI3VI'3(NeuAc)2-iso-nLc8, and VI3NeuAcVI'3alphaGal-iso-nLc8. A novel structure was discovered presenting a Galalpha3Lewis(x) determinant on the 6-linked antenna and a N-acetylneuraminic acid on the 3-linked antenna, VI3NeuAcVI'3alphaGalV'3alphaFuc-iso-nLc8. These results indicate that, in vivo, the porcine kidney alpha3fucosyltransferase synthesizes the Gala3Lewis(x) determinant, acting on the 6-linked before the 3-linked Galalpha3neolactosamine, and appears unable to synthesize the sialosylated Lewis(x) determinant on neolactoseries glycolipids.

A novel glycosphingolipid expressed in pig kidney: Gal alpha 1-3Lewis(x) hexaglycosylceramide.

Immunodetection of thin layer chromatograms of neutral glycosphingolipids of pig kidney cortex with a polyclonal antibody directed against the Gal alpha 1-3Gal determinant revealed several glycosphingolipids reacting with different intensities. A minor glycosphingolipid was isolated by preparative high performance thin layer chromatography. It was characterized as a type 2 hexaglycosylceramide with the following structure Gal alpha 1-3Gal beta 1-4(Fuc alpha 1-3)GlcNAc beta 1-3Gal beta 1-4Glc beta 1-Cer by fast atom bombardment- and desorption-chemical ionization-mass spectrometry, methylation analysis and hydrolysis with alpha-galactosidase followed by immunostaining with an anti-Lewis(x) monoclonal antibody. The proton NMR spectrum was found compatible with the proposed structure. Two other glycosphingolipids carrying the new determinant were partially characterized as an octa- and a branched-dodecaglycosylceramide. The expression of the Gal alpha 1-3 Lewis(x) determinant appeared to be developmentally regulated as it increased with age. The characterization of Gal alpha 1-3Le(x) in pig kidney indicates a new epitope capable of recognition by human natural antibodies in the context of xenotransplantation of pig organs to man. It also adds new members to the family of Le(x)-based glycolipids.