神经内分泌特异性蛋白样1在葡萄糖转运蛋白4膜转位中的功能作用。

Functional role of neuroendocrine-specific protein-like 1 in membrane translocation of GLUT4.

作者信息

Ikemoto Takaaki, Hosoya Takamitsu, Takata Kumi, Aoyama Hiroshi, Hiramatsu Toshiyuki, Onoe Hirotaka, Suzuki Masaaki, Endo Makoto

机构信息

Functional Probe Research Laboratory, RIKEN Center for Molecular Imaging Science, Kobe, Japan.

出版信息

Diabetes. 2009 Dec;58(12):2802-12. doi: 10.2337/db09-0756. Epub 2009 Aug 31.

DOI:10.2337/db09-0756

PMID:19720795

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2780876/

Abstract

OBJECTIVE

In skeletal muscles, dantrolene inhibits the exercise-induced membrane translocation of GLUT4. It has been postulated that the inhibitory action of dantrolene on Ca(2+) release from the sarcoplasmic reticulum (SR) causes inhibition of exercise-induced glucose uptake; however, the precise mechanism has not been adequately studied.

RESEARCH DESIGN AND METHODS

We discovered that dantrolene can bind to skeletal-type neuroendocrine-specific protein-like 1 (sk-NSPl1) with photoreactive dantrolene derivatives. In sk-NSPl1-deficient muscles, we examined the change in glucose uptake and the membrane translocation of GLUT4. In addition, we examined the change in blood glucose and also measured the glycogen level in both isolated and in situ skeletal muscles after electrical stimulation using our mutant mouse.

RESULTS

In sk-NSPl1-deficient muscles, exercise-induced glucose uptake was totally abolished with no change in insulin-induced glucose uptake. The Ca(2+) release mechanism and its inhibition by dantrolene were completely preserved in these muscles. The expression of GLUT4 in the mutant muscles also appeared unchanged. Confocal imaging and results using the membrane isolation method showed that exercise/contraction did not enhance GLUT4 translocation in these sk-NSPl1-deficient muscles under conditions of adequate muscle glycogen consumption. The blood glucose level in normal mice was reduced by electrical stimulation of the hind limbs, but that in mutant mice was unchanged.

CONCLUSIONS

sk-NSPl1 is a novel dantrolene receptor that plays an important role in membrane translocation of GLUT4 induced by contraction/exercise. The 23-kDa sk-NSPl1 may also be involved in the regulation of glucose levels in the whole body.

摘要

目的

在骨骼肌中，丹曲林可抑制运动诱导的葡萄糖转运蛋白4（GLUT4）向细胞膜的转位。据推测，丹曲林对肌浆网（SR）钙释放的抑制作用导致运动诱导的葡萄糖摄取受到抑制；然而，确切机制尚未得到充分研究。

研究设计与方法

我们发现丹曲林可与光反应性丹曲林衍生物结合骨骼肌型神经内分泌特异性蛋白样1（sk-NSPl1）。在sk-NSPl1基因缺失的肌肉中，我们检测了葡萄糖摄取的变化以及GLUT4的细胞膜转位情况。此外，我们还检测了血糖变化，并使用我们的突变小鼠测量了电刺激后离体和原位骨骼肌中的糖原水平。

结果

在sk-NSPl1基因缺失的肌肉中，运动诱导的葡萄糖摄取完全被消除，而胰岛素诱导的葡萄糖摄取没有变化。这些肌肉中钙释放机制及其被丹曲林的抑制作用完全保留。突变肌肉中GLUT4的表达也未出现变化。共聚焦成像和膜分离方法的结果表明，在肌肉糖原充分消耗的条件下，运动/收缩并未增强这些sk-NSPl1基因缺失肌肉中GLUT4的转位。正常小鼠后肢电刺激可降低血糖水平，但突变小鼠的血糖水平未发生变化。

结论

sk-NSPl1是一种新型丹曲林受体，在收缩/运动诱导的GLUT4细胞膜转位中起重要作用。23 kDa的sk-NSPl1可能也参与了全身葡萄糖水平的调节。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/af5c/2780876/1ea26bd97445/zdb0120959300001.jpg

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神经内分泌特异性蛋白样1在葡萄糖转运蛋白4膜转位中的功能作用。

Functional role of neuroendocrine-specific protein-like 1 in membrane translocation of GLUT4.

作者信息

机构信息

出版信息

OBJECTIVE

RESEARCH DESIGN AND METHODS

RESULTS

CONCLUSIONS

目的

研究设计与方法

结果

结论

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