Enhanced phagocytosis through inhibition of de novo ceramide synthesis

Abstract

Fcγ receptors are important mediators of the binding of IgG to and induction of phagocytosis in neutrophils. COS-1 cells provide a potentially useful model for studying these receptors because transfection with the FcγRIIA renders these cells phagocytic. During FcγRIIA-mediated phagocytosis in COS-1 cells, endogenous ceramide levels increased 52% by 20 min (p < 0.01). Phospholipase D activity increased by 62% (p < 0.01). Correspondingly, the phagocytic index increased by 3.7-fold by 20 min. Two inhibitors of ceramide formation were used to assess the consequences of reduced ceramide generation. L-Cycloserine, an inhibitor that blocks serine palmitoyltransferase activity, lowered both sphingosine and ceramide levels. Under these conditions, the phagocytic index increased 100% in the presence of 2 mM L-cycloserine. The formation of ceramide resulting from the N-acylation of dihydrosphingosine or sphingosine by ceramide synthase is inhibited by the fungal toxin fumonisin B1. When cells were treated with 5-50 μM fumonisin B1, the cellular level of ceramide decreased in a concentration-dependent manner, while simultaneously the phagocytic index increased by 52%. Concomitantly, three indirect measures of FcγRIIA activity were altered with the fall in ceramide levels. Syk phosphorylation, phospholipase D activity, and mitogen-activated protein (MAP) kinase phosphorylation were increased at 30 min. When Syk phosphorylation was blocked with piceatannol and cells were similarly challenged, phosphatidylinositol 3-kinase activation was blocked, but no changes in either ceramide accumulation or MAP kinase activation were observed. Ceramide formation and MAP kinase activation are therefore not dependent on Syk kinase activity in this system. These results indicate that COS-1 cells provide a useful model for the recapitulation of sphingolipid signaling in the study of phagocytosis. Ceramide formed by de novo synthesis may represent an important mechanism in the regulation of phagocytosis.