DEPENDENCE OF THE SURFACE EXPRESSION OF THE GLYCOLIPID CEREBROSIDE SULFATE ON ITS LIPID ENVIRONMENT - COMPARISON OF SPHINGOMYELIN AND PHOSPHATIDYLCHOLINE

The influence of the membrane lipid environment on the reactivity with antibody of the acidic glycolipid cerebroside sulfate (CBS) was examined by using a spin membrane immunoassay. Fewer antibodies in a polyclonal anti-CBS antiserum recognized the antigen in a bovine brain sphingomyelin/cholesterol (SM/CHOL) environment than in dipalmitoylphosphatidylcholine/cholesterol (DPPC/CHOL). Changes in the CBS ceramide group appeared to have less influence on antibody recognition of CBS in SM/CHOL than in DPPC/CHOL [Crook et al. (1986) Biochemistry 25, 7488–7494]. Although the fatty acid chain length of phosphatidylcholine strongly influences CBS recognition, the fatty acid chain length of sphingomyelin had only a moderate effect on CBS recognition and did not account for the decreased recognition in SM compared to in DPPC. Inhibition studies revealed that the antibodies which recognize CBS in SM/CHOL (S antibodies) form a population distinct from those which recognize CBS in DPPC/CHOL (P antibodies). The specificity of the P and S antibodies was examined further by comparing the efficacy of various substances, which share chemical features with the components of CBS in a SM/CHOL or DPPC/CHOL environment, to inhibit lysis of liposomes containing CBS. Intact CBS, cholesterol, and a phosphocholine lipid, at certain antigen densities, were required for optimal recognition of the antigen, especially by the P antibodies, suggesting that a complex of all three lipids in a multivalent array may be recognized by these antibodies. The S antibodies may recognize a smaller complex or monomers of CBS. Although increasing the molar ratio of CBS in SM above an optimal ratio 0.05 to 0. 1 had little effect on the recognition of CBS in SM, increasing the molar ratio of CBS in DPPC above this optimal ratio reduced the recognition of the antigen in DPPC by both pools of antibodies. This suggested that the organizations of CBS in SM/CHOL and in DPPC/CHOL may differ and that the S and P antibodies recognize this difference. © 1990, American Chemical Society. All rights reserved.