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β-细胞解偶联蛋白 2 调节活性氧的产生,这会影响胰岛素和胰高血糖素的分泌。

Beta-cell uncoupling protein 2 regulates reactive oxygen species production, which influences both insulin and glucagon secretion.

机构信息

Department of Physiology, University of Toronto, Toronto, Ontario, Canada.

出版信息

Diabetes. 2011 Nov;60(11):2710-9. doi: 10.2337/db11-0132. Epub 2011 Oct 7.

DOI:10.2337/db11-0132
PMID:21984579
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3198081/
Abstract

OBJECTIVE

The role of uncoupling protein 2 (UCP2) in pancreatic β-cells is highly debated, partly because of the broad tissue distribution of UCP2 and thus limitations of whole-body UCP2 knockout mouse models. To investigate the function of UCP2 in the β-cell, β-cell-specific UCP2 knockout mice (UCP2BKO) were generated and characterized.

RESEARCH DESIGN AND METHODS

UCP2BKO mice were generated by crossing loxUCP2 mice with mice expressing rat insulin promoter-driven Cre recombinase. Several in vitro and in vivo parameters were measured, including respiration rate, mitochondrial membrane potential, islet ATP content, reactive oxygen species (ROS) levels, glucose-stimulated insulin secretion (GSIS), glucagon secretion, glucose and insulin tolerance, and plasma hormone levels.

RESULTS

UCP2BKO β-cells displayed mildly increased glucose-induced mitochondrial membrane hyperpolarization but unchanged rates of uncoupled respiration and islet ATP content. UCP2BKO islets had elevated intracellular ROS levels that associated with enhanced GSIS. Surprisingly, UCP2BKO mice were glucose-intolerant, showing greater α-cell area, higher islet glucagon content, and aberrant ROS-dependent glucagon secretion under high glucose conditions.

CONCLUSIONS

Using a novel β-cell-specific UCP2KO mouse model, we have shed light on UCP2 function in primary β-cells. UCP2 does not behave as a classical metabolic uncoupler in the β-cell, but has a more prominent role in the regulation of intracellular ROS levels that contribute to GSIS amplification. In addition, β-cell UCP2 contributes to the regulation of intraislet ROS signals that mediate changes in α-cell morphology and glucagon secretion.

摘要

目的

解偶联蛋白 2(UCP2)在胰腺β细胞中的作用备受争议,部分原因是 UCP2 广泛存在于组织中,因此,全身性 UCP2 基因敲除小鼠模型存在一定的局限性。为了研究 UCP2 在β细胞中的功能,我们构建了β细胞特异性 UCP2 基因敲除小鼠(UCP2BKO)并对其进行了特征分析。

研究设计与方法

通过将 loxUCP2 小鼠与表达大鼠胰岛素启动子驱动的 Cre 重组酶的小鼠进行杂交,生成 UCP2BKO 小鼠。我们测量了多种体外和体内参数,包括呼吸速率、线粒体膜电位、胰岛 ATP 含量、活性氧(ROS)水平、葡萄糖刺激的胰岛素分泌(GSIS)、胰高血糖素分泌、葡萄糖和胰岛素耐量以及血浆激素水平。

结果

UCP2BKO 胰岛β细胞表现出轻度增加的葡萄糖诱导的线粒体膜超极化,但未改变解偶联呼吸的速率和胰岛 ATP 含量。UCP2BKO 胰岛β细胞内 ROS 水平升高,与增强的 GSIS 相关。令人惊讶的是,UCP2BKO 小鼠出现葡萄糖不耐受,其胰岛α细胞面积增大,胰岛胰高血糖素含量升高,在高葡萄糖条件下,ROS 依赖性的胰高血糖素分泌异常。

结论

使用新型β细胞特异性 UCP2KO 小鼠模型,我们阐明了 UCP2 在原代β细胞中的功能。UCP2 在β细胞中并不表现为经典的代谢解偶联蛋白,但在调节细胞内 ROS 水平方面发挥着更为突出的作用,该作用有助于增强 GSIS。此外,β细胞 UCP2 有助于调节胰岛内 ROS 信号,从而介导胰岛α细胞形态和胰高血糖素分泌的变化。

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