Uptake of the glycosphingolipid sulfatide in the gastrointestinal tract and pancreas in vivo and in isolated islets of Langerhans

In a systematic study of the optimal conditions for the quantitative isolation of gangliosides from brain tissue and their further purification the yield of gangliosides obtained by extraction of the tissue twice with twenty volumes of chloroform/methanol/water (4 : 8 : 3, v/v) was larger than that obtained with all other solvents tested, including tetrahydrofuran/phosphate buffer. The gangliosides were separated from other lipids by phase partition, water was added to the total lipid extract to give a final chloroform/methanol/water volume ratio of 4 : 8 : 5.6. Isolation of gangliosides from the total lipid extract with the aid of anion-exchange resins was not practical as a routine procedure on a large scale. The crude gangliosides extract was freed from low molecular weight contaminants by dialysis against water. This method was superior to the purification on gel filtration media or on anion-exchange resins, which required large columns with selective losses of gangliosides as a result. The present method has been applied to human brain, and the concentration and distribution of gangliosides in the human forebrain in infancy and old age are given.

Five CD1 molecules are expressed in humans and it is unclear whether they have specialized or redundant functions. We found that sulfatide is a promiscuous CD1-binding ligand and have isolated T cell clones that are specific for sulfatide and restricted by distinct CD1 molecules. These clones have been used to compare the capacity of different CD1 to present the same glycolipid, to induce effector functions, and to form persistent immunogenic complexes. CD1a, CD1b, and CD1c molecules similarly load sulfatide on the cell surface without processing, and prime Th1 and Th2 responses. Stimulation by sulfatide-loaded CD1a persists much longer than that by CD1b and CD1c in living cells. Use of recombinant soluble CD1a confirmed the prolonged capacity to stimulate T cells. Moreover, other glycosphingolipids bind to all CD1, which suggests the presence of additional promiscuous ligands. Thus, group I CD1 molecules present an overlapping set of self-glycolipids, even though they are quite divergent from an evolutionary point of view.