Inhibition of de novo ceramide synthesis by sirtuin-1 improves beta-cell function and glucose metabolism in type 2 diabetes

神经酰胺 2型糖尿病 内分泌学 西妥因1 内科学 胰岛素 糖尿病 胰岛素抵抗 生物 生物化学 医学 下调和上调 基因 细胞凋亡
作者
Srividya Velagapudi,Gergely Karsai,Maria Karsai,S A Mohammed,Fabrizio Montecucco,Luca Liberale,Hwan Lee,Federico Carbone,Giovanni Francesco Adami,Kangmin Yang,Margot Crucet,Sokrates Stein,Franceso Paneni,Tetiana Lapikova-Bryhinska,Hyunduk Jang,Simon Kraler,Daria Vdovenko,Richard Züllig,Giovanni G. Camici,Hyo‐Soo Kim
出处
期刊:Cardiovascular Research [Oxford University Press]
卷期号:120 (11): 1265-1278 被引量:12
标识
DOI:10.1093/cvr/cvae100
摘要

Abstract Aims Obesity and type 2 diabetes (T2D) are major risk factors for cardiovascular (CV) diseases. Dysregulated pro-apoptotic ceramide synthesis reduces β-cell insulin secretion, thereby promoting hyperglycaemic states that may manifest as T2D. Pro-apoptotic ceramides modulate insulin sensitivity and glucose tolerance while being linked to poor CV outcomes. Sirtuin-1 (SIRT1) is a NAD + -dependent deacetylase that protects against pancreatic β-cell dysfunction; however, systemic levels are decreased in obese–T2D mice and may promote pro-apoptotic ceramide synthesis and hyperglycaemia. Herein, we aimed to assess the effects of restoring circulating SIRT1 levels to prevent metabolic imbalance in obese and diabetic mice. Methods and results Circulating SIRT1 levels were reduced in obese–diabetic mice (db/db) as compared to age-matched non-diabetic db/+ controls. Restoration of SIRT1 plasma levels with recombinant murine SIRT1 for 4 weeks prevented body weight gain and improved glucose tolerance, insulin sensitivity, and vascular function in mice models of obesity and T2D. Untargeted lipidomics revealed that SIRT1 restored insulin secretory function of β-cells by reducing synthesis and accumulation of pro-apoptotic ceramides. Molecular mechanisms involved direct binding to and deacetylation of Toll-like receptor 4 (TLR4) by SIRT1 in β-cells, thereby decreasing the rate-limiting enzymes of sphingolipid synthesis SPTLC1/2 via AKT/NF-κB. Among patients with T2D, those with high baseline plasma levels of SIRT1 prior to metabolic surgery displayed restored β-cell function (HOMA2-β) and were more likely to have T2D remission during follow-up. Conclusion Acetylation of TLR4 promotes β-cell dysfunction via ceramide synthesis in T2D, which is blunted by systemic SIRT1 replenishment. Hence, restoration of systemic SIRT1 may provide a novel therapeutic strategy to counteract toxic ceramide synthesis and mitigate CV complications of T2D.
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