Specificity of xenoreactive anti-Gal alpha 1-3Gal IgM for alpha-galactosyl ligands.

The transplantation of organs from lower animals such as pigs into humans is prevented by a severe rejection reaction initiated by complement fixing xenoreactive natural antibodies. Most anti-pig xenoreactive natural antibodies in humans are thought to recognize Gal alpha 1-3Gal beta 1-4GlcNAc and are also thought to recognize, albeit less avidly, Gal alpha 1-6Glc. Gal alpha 1-6Glc has been used as a ligand for purification of 'anti-Gal alpha 1-3Gal antibodies' and as a therapeutic or reagent to prevent the binding of these antibodies to porcine organs or cells. We tested the specificity of anti-Gal alpha 1-3Gal IgM for Gal alpha 1-6Glc and related saccharides. Based on inhibition of binding of xenoreactive anti-Gal alpha 1-3Gal IgM to porcine cells by soluble saccharides, anti-Gal alpha 1-3Gal IgM in a human serum was found to consist of a mixture of antibodies which have a similar affinity for Gal alpha 1-3Gal but varying affinities for Gal alpha 1-6Glc and other structures. Twenty to 40% of the anti-Gal alpha 1-3Gal IgM from the population tested did not recognize Gal alpha 1-6Glc. The binding of anti-Gal alpha 1-3Gal IgM to Gal alpha 1-6Glc varied widely from individual to individual, some samples lacking almost entirely anti-Gal alpha 1-3Gal IgM which bound to Gal alpha 1-6Glc.

Isohemagglutinins and xenoreactive antibodies: members of a distinct family of natural antibodies.

Just as anti-blood group A and anti-blood group B antibodies pose a strong humoral barrier to the transplantation of allogeneic organs or blood, xenoreactive natural antibodies directed against Gal alpha 1-3Gal pose a barrier to the transplantation of xenogeneic organs or blood. We tested the idea that, although "natural" iso-hemagglutinins and xenoreactive natural antibodies recognize distinct structures, they have a similar origin and function. Anti-A antibodies, anti-B antibodies, and xenoreactive natural antibodies were present in serum at similar concentrations and varied with age, gender, and the concentration of total IgM in serum in a similar manner. Anti-A antibodies, anti-B antibodies, and xenoreactive natural antibodies, unlike some elicited antibodies, had a high degree of thermal lability and bound more avidly at lower temperatures. The natural antibodies manifest remarkable homogeneity and high functional avidity for determinants on a cell surface but only a weak affinity for monovalent ligands. These findings suggest that anti-A antibodies, anti-B antibodies, and xenoreactive natural antibodies specific for Gal alpha 1-3Gal have a common origin and function and, given similar antigen density on target cells, provide similar humoral barriers to transplantation or transfusion and that these antibodies may be members of a common "family" of antibodies.