Abstract
Sphingolipids are bioactive lipids associated with cellular membranes and plasma lipoproteins, and their synthesis and degradation are tightly regulated. We have previously determined that low plasma concentrations of certain ceramide species predict the development of nephropathy in diabetes patients with normal albumin excretion rates at baseline. Herein, we tested the hypothesis that altering the sphingolipid content of circulating lipoproteins can alter the metabolic and signaling pathways in podocytes, whose dysfunction leads to an impairment of glomerular filtration. Cultured human podocytes were treated with lipoproteins from healthy subjects enriched in vitro with C16 ceramide, or D-erythro 2-hydroxy C16 ceramide, a ceramide naturally found in skin. The RNA-Seq data demonstrated differential expression of genes regulating sphingolipid metabolism, sphingolipid signaling, and mTOR signaling pathways. A multiplex analysis of mTOR signaling pathway intermediates showed that the majority (eight) of the pathway phosphorylated proteins measured (eleven) were significantly downregulated in response to C16 ceramide-enriched HDL2 compared to HDL2 alone and hydroxy ceramide-enriched HDL2. In contrast, C16 ceramide-enriched HDL3 upregulated the phosphorylation of four intermediates in the mTOR pathway. These findings highlight a possible role for lipoprotein-associated sphingolipids in regulating metabolic and signaling pathways in podocytes and could lead to novel therapeutic targets in glomerular kidney diseases.
Highlights
Sphingolipids are both structural lipids and signaling molecules with significant physiological functions
We previously demonstrated that increased plasma levels of baseline C16 ceramide and very long (C20–C26) chain ceramide species were associated with decreased likelihood to develop macroalbuminuria after several years of follow-up [15]
We aimed at determining whether lipoproteins enriched with C16 ceramide species could induce critical metabolic and signaling pathways in cultured human podocytes
Summary
Sphingolipids are both structural lipids and signaling molecules with significant physiological functions. Diseases associated with kidney dysfunction—including diabetic nephropathy, polycystic kidney disease, and renal cell carcinoma—have been associated with changes in renal glycosphingolipid levels and the associated metabolism [4,5,6]. Little is known about how changes in plasma sphingolipids and the sphingolipid composition of lipoproteins may. Genes 2020, 11, x FOR PEER REVIEW carcinoma—have been associated with changes in renal glycosphingolipid levels and the associated metabolism [4,5,6]. Little is known about how changes in plasma sphingolipids and the sphingolipid composition of lipoproteins may contribute to the development of renal disease. Urine protein metabolites in patients with diabetic kidney disease provided someinbiochemical insights for contribute to the development of renal disease
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