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Literature DB >> 28743803

The glucocorticoid-Angptl4-ceramide axis induces insulin resistance through PP2A and PKCζ.

Tzu-Chieh Chen^1,2, Daniel I Benjamin^1,2, Taiyi Kuo^2,3, Rebecca A Lee^2,3, Mei-Lan Li², Darryl J Mar², Damian E Costello^2,3, Daniel K Nomura^1,2,3,4, Jen-Chywan Wang^5,2,3.

Abstract

Chronic glucocorticoid exposure is associated with the development of insulin resistance. We showed that glucocorticoid-induced insulin resistance was attenuated upon ablation of Angptl4, a glucocorticoid target gene encoding the secreted protein angiopoietin-like 4, which mediates glucocorticoid-induced lipolysis in white adipose tissue. Through metabolomic profiling, we revealed that glucocorticoid treatment increased hepatic ceramide concentrations by inducing enzymes in the ceramide synthetic pathway in an Angptl4-dependent manner. Angptl4 was also required for glucocorticoids to stimulate the activities of the downstream effectors of ceramide, protein phosphatase 2A (PP2A) and protein kinase Cζ (PKCζ). We further showed that knockdown of PP2A or inhibition of PKCζ or ceramide synthesis prevented glucocorticoid-induced glucose intolerance in wild-type mice. Moreover, the inhibition of PKCζ or ceramide synthesis did not further improve glucose tolerance in Angptl4-/- mice, suggesting that these molecules were major downstream effectors of Angptl4. Overall, our study demonstrates the key role of Angptl4 in glucocorticoid-augmented hepatic ceramide production that induces whole-body insulin resistance.

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Year: 2017 PMID： 28743803 PMCID： PMC6218395 DOI： 10.1126/scisignal.aai7905

Source DB: PubMed Journal: Sci Signal ISSN： 1945-0877 Impact factor: 8.192

53 in total

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