Induction of endocytic vesicles by exogenous C(6)-ceramide.

Ceramide is a newly discovered second messenger that has been shown to cause cell growth arrest and apoptosis. Here, we present evidence that exogenously added C(6)-ceramide induces enlargement of late endosomes and lysosomes. 10 microM C(6)-ceramide caused the formation of numerous vesicles of varying sizes (2-10 micrometers) in fibroblasts (3T3-L1 and 3T3-F442A), without toxic effects. Vesicle formation induced by C(6)-ceramide was time- and dose-dependent, rapid, and reversible. Numerous small vesicles appeared within 8 h of treatment with 10 microM C(6)-ceramide. They enlarged with time, with large vesicles found in the perinuclear region and small ones observed at the cell periphery. Within 24 h of treatment, approximately 30% of the cells exhibited these vesicles. Removal of ceramide from the culture medium caused disappearance of the vesicles, which reappeared upon readdition of ceramide. Confocal immunofluorescence microscopic analysis using an anti-lysosome-associated membrane protein antibody identified the enlarged vesicles as late endosomes/lysosomes. The fluorescent C(6)-NBD-ceramide, a vital stain for the Golgi apparatus, did not stain these vesicles. The effect on vesicle formation was influenced by ceramide structure; D-erythro-C(6)-ceramide was the most active ceramide analogue tested. Short chain ceramide metabolites, such as sphingosine, sphingosine 1-phosphate, N-hexanoyl-sphingosylphosphorylcholine, N-acetylpsychosine, and C(2)-ceramide G(M3), (G(M3), N-acetylneuraminosyl-alpha(2, 3)-galactosyl-beta(1,4)-glucosylceramide), were inactive in causing vesicle formation when added exogenously. Together, these studies demonstrate that exogenous C(6)-ceramide induces endocytic vesicle formation and causes enlarged late endosomes and lysosomes in mouse fibroblasts.