Identification of glycolipid binding sites for soybean agglutinin and differences in the surface glycolipids of cultured adrenergic and cholinergic sympathetic neurons

Abstract

Cultured adrenergic neurons from newborn rat superior cervical ganglia bind the lectin soybean agglutinin (SBA) at a fivefold higher density than the same neurons which have been induced to become cholinergic ( M. Schwab and S. L. Landis, 1981, Dev. Biol. 84, 67–78). In the present experiments, the binding sites for this lectin on the surfaces of living neurons were identified by labeling the surfaces with the galactose oxidase-[ 3H]sodium borohydride reduction technique, with and without prior incubation with the lectin. SBA binds to and inhibits the labeling of two neutral glycolipids, a glycolipid comigrating with globoside on thin-layer chromatograms and an unidentified glycolipid. When neuronal proteins are extracted and separated by polyacrylamide gel electrophoresis in sodium dodecyl sulfate, SBA shows only very faint labeling of this fraction. Thus the SBA binding sites on these neurons appear to be two neutral glycolipids. Further support for this conclusion comes from the finding that the two neutral glycolipids detected by SBA are present in smaller amounts or are less accessible on the cholinergic than on the adrenergic neurons as measured by surface labeling. In addition to the difference in neutral glycolipids, external labeling revealed quantitative differences in the major gangliosides of the two types of cultured neurons. Thus, by using pure cultures of sympathetic neurons which can be induced to become either adrenergic or cholinergic, specific glycolipid profiles were correlated with the two neurotransmitter phenotypes.