Abstract
Obesity-associated diabetes is linked to the accumulation of ceramide in various organs, including the liver. The exact mechanisms by which ceramide contributes to diabetic pathology are unclear, but one proposed scenario is that ceramide accumulation may inhibit insulin signaling pathways. It is unknown however whether the excess ceramide is generated proximal to the insulin receptor, that is, at the plasma membrane (PM), where it could affect the insulin signaling pathway directly, or the onset of insulin resistance is due to ceramide-induced mitochondrial dysfunction and/or lipotoxicity. Using hepatic cell lines and primary cultures, gain- and loss- of function approach, and state-of-the art lipid imaging, this study shows that PM-associated neutral sphingomyelinase 2 (nSMase2) regulates ceramide homeostasis in fat-loaded hepatocytes and drives the onset of insulin resistance. Our results provide evidence of a regulated translocation of nSMase2 to the PM which leads to local generation of ceramide and insulin resistance in cells treated with palmitic acid (PAL), a type of fat commonly found in diabetogenic diets. Oleic acid, which also causes accumulation of lipid droplets, does not induce nSMase2 translocation and insulin resistance. Experiments using the acyl-biotin exchange method to quantify protein palmitoylation show that cellular PAL abundance regulates the rate of nSMase2 palmitoylation. Furthermore, while inhibition of nSMase2 with GW4869 prevents PAL-induced insulin resistance, the overexpression of wild type nSMase2 but not palmitoylation-defective mutant protein potentiates the suppressive effect of PAL on insulin signaling. Overall, this study identifies nSMase2 as a novel component of the mechanism of insulin resistance onset in fat-loaded hepatocytes, that is, cell-autonomous and driven by PAL.
Original language | English |
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Article number | 100435 |
Journal | Journal of Lipid Research |
Volume | 64 |
Issue number | 10 |
DOIs | |
State | Published - Oct 2023 |
Bibliographical note
Publisher Copyright:© 2023 THE AUTHORS.
Funding
This work was supported by NIA grants R01 AG019223 (to N.-K. M.), RF1AG078338 (to B. E.), and R21AG078601 (to B. E.) and National Institute of Health grant R01 DK135267 to N.-K. M.
Funders | Funder number |
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National Institutes of Health (NIH) | R01 DK135267 |
National Institute on Aging | RF1AG078338, R21AG078601, R01 AG019223 |
Keywords
- Akt
- ceramides
- hepatocytes
- insulin resistance
- neutral sphingomyelinase 2
- palmitic acid
- palmitoylation
- plasma membrane
- smpd3
- sphingolipids
ASJC Scopus subject areas
- Biochemistry
- Endocrinology
- Cell Biology