3-羟基十四碳烯酸的积累：胰腺β细胞生物能量学糖脂毒性损伤的原因还是结果？

Accumulation of 3-hydroxytetradecenoic acid: Cause or corollary of glucolipotoxic impairment of pancreatic β-cell bioenergetics?

作者信息

Doliba Nicolai M, Liu Qing, Li Changhong, Chen Jie, Chen Pan, Liu Chengyang, Frederick David W, Baur Joseph A, Bennett Michael J, Naji Ali, Matschinsky Franz M

机构信息

Department of Biochemistry and Biophysics, University of Pennsylvania School of Medicine, United States; Institute for Diabetes, Obesity and Metabolism, University of Pennsylvania School of Medicine, United States.

Institute for Diabetes, Obesity and Metabolism, University of Pennsylvania School of Medicine, United States; Department of Pediatrics, Children's Hospital of Philadelphia, Philadelphia, PA 19104, United States.

出版信息

Mol Metab. 2015 Oct 8;4(12):926-39. doi: 10.1016/j.molmet.2015.09.010. eCollection 2015 Dec.

DOI:10.1016/j.molmet.2015.09.010

PMID:26909309

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4731732/

Abstract

OBJECTIVES

Hyperglycemia and elevated blood lipids are the presumed precipitating causes of β-cell damage in T2DM as the result of a process termed "glucolipotoxicity". Here, we tested whether glucolipotoxic pathophysiology is caused by defective bioenergetics using islets in culture.

METHODS

Insulin secretion, respiration, ATP generation, fatty acid (FA) metabolite profiles and gene expression were determined in isolated islets treated under glucolipotoxic culture conditions.

RESULTS

Over time, chronic exposure of mouse islets to FAs with glucose leads to bioenergetic failure and reduced insulin secretion upon stimulation with glucose or amino acids. Islets exposed to glucolipotoxic conditions displayed biphasic changes of the oxygen consumption rate (OCR): an initial increase in baseline and Vmax of OCR after 3 days, followed by decreased baseline and glucose stimulated OCR after 5 days. These changes were associated with lower islet ATP levels, impaired glucose-induced ATP generation, a trend for reduced mitochondrial DNA content and reduced expression of mitochondrial transcription factor A (Tfam). We discovered the accumulation of carnitine esters of hydroxylated long chain FAs, in particular 3-hydroxytetradecenoyl-carnitine.

CONCLUSIONS

As long chain 3-hydroxylated FA metabolites are known to uncouple heart and brain mitochondria [53], [54], [55], we propose that under glucolipotoxic condition, unsaturated hydroxylated long-chain FAs accumulate, uncouple and ultimately inhibit β-cell respiration. This leads to the slow deterioration of mitochondrial function progressing to bioenergetics β-cell failure.

摘要

目的

高血糖和血脂升高被认为是2型糖尿病中β细胞损伤的促发原因，这是一个被称为“糖脂毒性”的过程导致的结果。在此，我们使用培养的胰岛来测试糖脂毒性病理生理学是否由生物能量学缺陷引起。

方法

在糖脂毒性培养条件下处理的分离胰岛中，测定胰岛素分泌、呼吸作用、ATP生成、脂肪酸（FA）代谢物谱和基因表达。

结果

随着时间推移，小鼠胰岛长期暴露于脂肪酸和葡萄糖会导致生物能量衰竭，并且在受到葡萄糖或氨基酸刺激时胰岛素分泌减少。暴露于糖脂毒性条件下的胰岛显示出氧消耗率（OCR）的双相变化：3天后OCR的基线和Vmax最初增加，随后在5天后基线和葡萄糖刺激的OCR降低。这些变化与较低的胰岛ATP水平、葡萄糖诱导的ATP生成受损、线粒体DNA含量降低的趋势以及线粒体转录因子A（Tfam）的表达减少有关。我们发现了羟基化长链脂肪酸的肉碱酯的积累，特别是3-羟基十四碳烯酰肉碱。

结论

由于已知长链3-羟基脂肪酸代谢物会使心脏和脑线粒体解偶联[53,54,55]，我们提出在糖脂毒性条件下，不饱和羟基化长链脂肪酸积累、解偶联并最终抑制β细胞呼吸。这导致线粒体功能逐渐恶化，进而发展为生物能量学β细胞衰竭。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f911/4731732/b8207499c2ac/gr1.jpg

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3-羟基十四碳烯酸的积累：胰腺β细胞生物能量学糖脂毒性损伤的原因还是结果？

Accumulation of 3-hydroxytetradecenoic acid: Cause or corollary of glucolipotoxic impairment of pancreatic β-cell bioenergetics?

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