Synthetic ceramides inhibit CD36 expression in U937 cells through a reduction in cytosolic peroxide

Ceramide (a sphingolipid) and reactive oxygen species (ROS) are each partly responsible for the intracellular signal transduction of a variety of physiological, pharmacological or environmental agents. It has been reported that synthesis of ceramide and ROS are intimately linked, and show reciprocal regulation. The levels of ceramide are reported to be elevated in atherosclerotic plaques providing circumstantial evidence for a pro-atherogenic role for ceramide. Indeed, LDL may be important sources of ceramide from sphingomyelin, where it promotes LDL aggregation. Using synthetic, short chain ceramides to mimic the cellular responses to fluctuations in natural endogenous ceramides, we have investigated ceramide effects on both intracellular redox state (as glutathione and ROS) and redox-sensitive gene expression, specifically the scavenger receptor CD36 (using RT-PCR and flow cytometry), in U937 monocytes and macrophages. We describe that the principal redox altering properties of ceramide are to lower cytosolic peroxide and to increase mitochondrial ROS formation, where growth arrest of U937 monocytes is also observed. In addition, cellular glutathione was depleted, which was independent of an increase in glutathione peroxidase activity. Examination of the effects of ceramide on stress induced CD36 expression in macrophages, revealed a dose dependent reduction in CD36 mRNA and protein levels, which was mimicked by N-acetyl cysteine. Taken together, these data suggest that ceramides differentially affect ROS within different cellular compartments, and that loss of cytosolic peroxide inhibits expression of the redox sensitive gene, CD36. This may attenuate both the uptake of oxidised LDL and the interaction of HDL with macrophages. The resulting sequelae in vivo remain to be determined.

Synthetic ceramides induce growth arrest or apoptosis by altering cellular redox status

Reactive oxygen species (ROS) and ceramide are each partly responsible for the signal transduction of a variety of extracellular agents. Furthermore, the application of synthetic, short-chain ceramides mimics the cellular responses to these extracellular agents. However, the significance of ROS involvement in ceramide signaling pathways is poorly understood. Here we describe that the (cellular responses to C2-/C6-ceramide of growth arrest in U937 monocytes and apoptosis in Jurkat T-cells are preceded by a rise in mitochondrial peroxide production. In Jurkat T-cells, this is associated with a large time- and dose-dependent loss of cellular glutathione. However, in U937 monocytes, glutathione loss is transient. Differences in the magnitude and kinetics of this alteration in cellular redox state associate with discrete outcomes, namely growth arrest or apoptosis. © 2002 Elsevier Science (USA). All rights reserved.