人体骨骼肌细胞的收缩活动通过抑制促炎信号通路来预防胰岛素抵抗。

Contractile activity of human skeletal muscle cells prevents insulin resistance by inhibiting pro-inflammatory signalling pathways.

机构信息

German Diabetes Center, Auf´m Hennekamp 65, Duesseldorf, Germany.

出版信息

Diabetologia. 2012 Apr;55(4):1128-39. doi: 10.1007/s00125-012-2454-z. Epub 2012 Jan 27.

Abstract

AIMS/HYPOTHESIS: Obesity is closely associated with muscle insulin resistance and is a major risk factor for the pathogenesis of type 2 diabetes. Regular physical activity not only prevents obesity, but also considerably improves insulin sensitivity and skeletal muscle metabolism. We sought to establish and characterise an in vitro model of human skeletal muscle contraction, with a view to directly studying the signalling pathways and mechanisms that are involved in the beneficial effects of muscle activity.

METHODS

Contracting human skeletal muscle cell cultures were established by applying electrical pulse stimulation. To induce insulin resistance, skeletal muscle cells were incubated with human adipocyte-derived conditioned medium, monocyte chemotactic protein (MCP)-1 and chemerin.

RESULTS

Similarly to in exercising skeletal muscle in vivo, electrical pulse stimulation induced contractile activity in human skeletal muscle cells, combined with the formation of sarcomeres, activation of AMP-activated protein kinase (AMPK) and increased IL-6 secretion. Insulin-stimulated glucose uptake was substantially elevated in contracting cells compared with control. The incubation of skeletal muscle cells with adipocyte-conditioned media, chemerin and MCP-1 significantly reduced the insulin-stimulated phosphorylation of Akt. This effect was abrogated by concomitant pulse stimulation of the cells. Additionally, pro-inflammatory signalling by adipocyte-derived factors was completely prevented by electrical pulse stimulation of the myotubes.

CONCLUSIONS/INTERPRETATION: We showed that the effects of electrical pulse stimulation on skeletal muscle cells were similar to the effect of exercise on skeletal muscle in vivo in terms of enhanced AMPK activation and IL-6 secretion. In our model, muscle contractile activity eliminates insulin resistance by blocking pro-inflammatory signalling pathways. This novel model therefore provides a unique tool for investigating the molecular mechanisms that mediate the beneficial effects of muscle contraction.

摘要

目的/假设：肥胖与肌肉胰岛素抵抗密切相关，是 2 型糖尿病发病的主要危险因素。有规律的体育活动不仅可以预防肥胖，而且还能显著改善胰岛素敏感性和骨骼肌代谢。我们试图建立和描述一种体外的人类骨骼肌收缩模型，以期直接研究肌肉活动有益作用所涉及的信号通路和机制。

方法

通过应用电脉冲刺激来建立收缩的人类骨骼肌细胞培养物。为了诱导胰岛素抵抗，将骨骼肌细胞与人类脂肪细胞衍生的条件培养基、单核细胞趋化蛋白-1（MCP-1）和趋化素孵育。

结果

与体内运动骨骼肌相似，电脉冲刺激在人类骨骼肌细胞中诱导收缩活性，同时形成肌节、激活 AMP 激活蛋白激酶（AMPK）并增加白细胞介素-6（IL-6）的分泌。与对照组相比，收缩细胞中的胰岛素刺激葡萄糖摄取显著增加。将骨骼肌细胞与脂肪细胞条件培养基、趋化素和 MCP-1 孵育会显著降低胰岛素刺激的 Akt 磷酸化。细胞的同时脉冲刺激可消除这种作用。此外，电脉冲刺激完全阻止了脂肪细胞衍生因子的促炎信号。

结论/解释：我们表明，电脉冲刺激对骨骼肌细胞的影响与运动对体内骨骼肌的影响相似，表现在增强 AMPK 激活和 IL-6 分泌。在我们的模型中，肌肉收缩活动通过阻断促炎信号通路消除胰岛素抵抗。因此，这种新模型为研究介导肌肉收缩有益作用的分子机制提供了独特的工具。

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人体骨骼肌细胞的收缩活动通过抑制促炎信号通路来预防胰岛素抵抗。

Contractile activity of human skeletal muscle cells prevents insulin resistance by inhibiting pro-inflammatory signalling pathways.

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