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慢性脓毒症对离体大鼠肌纤维电压门控钠通道的影响。

Effects of chronic sepsis on the voltage-gated sodium channel in isolated rat muscle fibers.

作者信息

Rossignol Benoit, Gueret Gildas, Pennec Jean-Pierre, Morel Julie, Giroux-Metges Marie A, Talarmin Hélène, Arvieux Charles C

机构信息

Département d'Anesthésie Réanimation, University Hospital of Brest, Brest, France.

出版信息

Crit Care Med. 2007 Feb;35(2):351-7. doi: 10.1097/01.CCM.0000254335.88023.0E.

DOI:10.1097/01.CCM.0000254335.88023.0E
PMID:17205014
Abstract

OBJECTIVE

Physiopathology of critical illness polyneuromyopathy was investigated in several animal-based models. Electrophysiologic approach was achieved in denervated and corticosteroid-induced myopathy; other models based on sepsis or inflammatory factors (zymosan, cytokines) were also used but did not consider voltage-gated sodium channel implication in neuromuscular weakness. We have studied electrophysiologic effects of chronic sepsis on an intact neuromuscular rat model with special consideration to the subtypes of sodium channels involved.

DESIGN

Experimental animal study.

SETTING

University laboratory.

SUBJECTS

Wistar rats.

INTERVENTIONS

Chronic sepsis was achieved by a technique of cecal ligature and needle perforation. Ten days after surgery, the rats were killed. Fast-twitch flexor digitorum brevis was excised and dissociated in 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid-buffered saline supplemented with 3.0 mg/mL collagenase. Fast sodium currents were recorded by a macropatch clamp technique at room temperature (22+/-2 degrees C) in a cell-attached configuration.

MEASUREMENTS AND MAIN RESULTS

A decrease in maximal sodium current and in conductance was evidenced without modification of the sodium Nernst potential. A shift of the voltage inactivation curve toward more negative potentials could explain the observed decrease in excitability. In parallel, we observed an up-regulation of NaV 1.5-type sodium channels.

CONCLUSIONS

Chronic inflammation and sepsis induced modifications of sodium channel properties that could contribute to muscular inexcitability. This inexcitability can be elicited by a modification of properties or type of voltage-gated sodium channels. Our results lead us to explain this inexcitability by an up-regulation of NaV 1.5 sodium channel.

摘要

目的

在多种基于动物的模型中研究危重病性多神经病性肌病的病理生理学。在去神经支配和皮质类固醇诱导的肌病中采用了电生理学方法;还使用了其他基于脓毒症或炎性因子(酵母聚糖、细胞因子)的模型,但未考虑电压门控钠通道在神经肌肉无力中的作用。我们研究了慢性脓毒症对完整神经肌肉大鼠模型的电生理影响,并特别考虑了所涉及的钠通道亚型。

设计

实验动物研究。

单位

大学实验室。

对象

Wistar大鼠。

干预措施

通过盲肠结扎和针刺穿孔技术造成慢性脓毒症。术后10天处死大鼠。切除快速收缩的趾短屈肌,并在补充有3.0mg/mL胶原酶的4-(2-羟乙基)-1-哌嗪乙磺酸缓冲盐溶液中解离。在室温(22±2℃)下,采用细胞贴附式膜片钳技术记录快速钠电流。

测量指标及主要结果

最大钠电流和电导率降低,但钠能斯特电位未改变。电压失活曲线向更负的电位偏移可以解释所观察到的兴奋性降低。同时,我们观察到NaV 1.5型钠通道上调。

结论

慢性炎症和脓毒症可导致钠通道特性改变,这可能导致肌肉兴奋性降低。这种兴奋性降低可由电压门控钠通道的特性或类型改变引起。我们的研究结果使我们能够通过NaV 1.5钠通道上调来解释这种兴奋性降低。

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