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Sphingolipid subtypes differentially control proinsulin processing and systemic glucose homeostasis.

Kerstin GriessMichael RieckNadine MüllerGergely KarsaiSonja HartwigAngela PelligraRobert HardtCaroline SchlegelJennifer KubothCelina UhlemeyerSandra TrenkampKay JeruschkeJürgen WeissLeon Peifer-WeissWeiwei XuSandra CamesXiaoyan YiGabriel SantosMathias BellerHolger StarkArun Kumar KondadiAndreas S ReichertDaniel MarkgrafMarianne WammersDieter HäussingerOliver KussStefan LehrDecio EizirikHeiko LickertEckhard LammertMichael RodenDominic WinterHadi Al-HasaniDoris HöglingerThorsten HornemannJens C BrüningBengt-Frederik Belgardt
Published in: Nature cell biology (2022)
Impaired proinsulin-to-insulin processing in pancreatic β-cells is a key defective step in both type 1 diabetes and type 2 diabetes (T2D) (refs. 1 , 2 ), but the mechanisms involved remain to be defined. Altered metabolism of sphingolipids (SLs) has been linked to development of obesity, type 1 diabetes and T2D (refs. 3-8 ); nonetheless, the role of specific SL species in β-cell function and demise is unclear. Here we define the lipid signature of T2D-associated β-cell failure, including an imbalance of specific very-long-chain SLs and long-chain SLs. β-cell-specific ablation of CerS2, the enzyme necessary for generation of very-long-chain SLs, selectively reduces insulin content, impairs insulin secretion and disturbs systemic glucose tolerance in multiple complementary models. In contrast, ablation of long-chain-SL-synthesizing enzymes has no effect on insulin content. By quantitatively defining the SL-protein interactome, we reveal that CerS2 ablation affects SL binding to several endoplasmic reticulum-Golgi transport proteins, including Tmed2, which we define as an endogenous regulator of the essential proinsulin processing enzyme Pcsk1. Our study uncovers roles for specific SL subtypes and SL-binding proteins in β-cell function and T2D-associated β-cell failure.
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