Ceramide Is Metabolized to Acylceramide and Stored in Lipid Droplets

<p id="P1">In an approach aimed at defining interacting partners of ceramide synthases (CerS), we found that fatty acyl CoA synthase ACSL5 interacts with all CerS. We demonstrate that ACSL5 generated FA-CoA was utilized with <i>de novo</i> ceramide for the generation of acylceramides, poorly studied ceramide metabolites. Functionally, inhibition of ceramide channeling to acylceramide enhanced accumulation of <i>de novo</i> ceramide and resulted in augmentation of ceramide-mediated apoptosis. Mechanistically, we show that acylceramide generation is catalyzed by diacylglycerol acyltransferase 2 (DGAT2) on lipid droplets. In summary, this study identifies a metabolic pathway of acylceramide generation and its sequestration in LD in cells and in livers of mice on a high fat diet. The study also implicates this novel pathway in ceramide-mediated apoptosis, and has implications in co-regulation of triglyceride and sphingolipid metabolisms. </p><p id="P2">XXX et al identify a novel pathway whereby ceramide is converted to acylceramides by a CerS-ACSL-DGAT complex in lipid droplets for storage. These results raise interesting questions as to the metabolic interplay of TG/DAG and ceramide/acylceramide and the roles of ACSL5 and CerS in regulating these balances. </p><p id="P3"> <div class="figure-container so-text-align-c"> <img alt="" class="figure" src="/document_file/0aaaf799-f37d-43cb-92c9-4130848bb5c1/PubMedCentral/image/nihms855413u1.jpg"/> </div> </p>