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在大鼠骨骼肌的体外发育过程中,会出现河豚毒素敏感型和河豚毒素抗性型钠离子通道的不同功能状态。

Different functional states of tetrodotoxin sensitive and tetrodotoxin resistant Na+ channels occur during the in vitro development of rat skeletal muscle.

作者信息

Frelin C, Vijverberg H P, Romey G, Vigne P, Lazdunski M

出版信息

Pflugers Arch. 1984 Oct;402(2):121-8. doi: 10.1007/BF00583323.

DOI:10.1007/BF00583323
PMID:6098891
Abstract

There are three stages of differentiation of voltage dependent Na+ channels during the in vitro development of rat skeletal muscle. Myoblasts which are less than 60 h old in culture have Na+ channels which normally do not give rise to action potentials but do so after treatment of the cells with very low concentrations of sea anemone toxin. These Na+ channels revealed by sea anemone toxin are resistant to TTX. Myoblasts prior to fusion are electrically excitable (Vmax = 10 V/s). Electrically activated Na+ channels are only blocked by high concentrations of TTX. Titration of TTX resistant Na+ channels with a tritiated derivative of TTX indicates a dissociation constant of the TTX-Na+ channel complex of 50 nM. Myotubes have both high and low affinity binding sites for TTX (Frelin et al. 1983). Action potentials (Vmax = 100-200 V/s) are only inhibited at high concentrations of TTX. Experiments with rat myoballs indicate that only Na+ channels with a low affinity binding site for TTX are functional in voltage-clamp studies. The K0.5 value for TTX inhibition of the peak Na+ current is observed at 70 nM. Spontaneous contractions of myotubes are blocked by TTX with a K0.5 value of 100 nM, suggesting that TTX resistant Na+ channels are also the ones responsible for the spontaneous contractions in rat myotubes in culture. 22Na+ flux studies after activation of the Na+ channel with neurotoxins have been carried out at the different stages of differentiation. Toxin activated Na+ channels have the same high affinity for sea anemone toxins at all stages of development; likewise, the sensitivity for TTX is the same.(ABSTRACT TRUNCATED AT 250 WORDS)

摘要

在大鼠骨骼肌的体外发育过程中,电压依赖性钠离子通道存在三个分化阶段。培养时间少于60小时的成肌细胞具有钠离子通道,这些通道通常不会引发动作电位,但在用极低浓度的海葵毒素处理细胞后会引发动作电位。海葵毒素所揭示的这些钠离子通道对河豚毒素具有抗性。融合前的成肌细胞具有电兴奋性(最大去极化速率=10V/s)。电激活的钠离子通道仅被高浓度的河豚毒素阻断。用河豚毒素的氚化衍生物滴定抗河豚毒素的钠离子通道表明,河豚毒素-钠离子通道复合物的解离常数为50nM。肌管对河豚毒素有高亲和力和低亲和力结合位点(弗雷林等人,1983年)。动作电位(最大去极化速率=100-200V/s)仅在高浓度的河豚毒素作用下受到抑制。对大鼠肌球的实验表明,在电压钳研究中,只有对河豚毒素具有低亲和力结合位点的钠离子通道才具有功能。河豚毒素抑制峰值钠电流的半最大抑制浓度(K0.5)值为70nM。肌管的自发收缩被河豚毒素阻断,K0.5值为100nM,这表明抗河豚毒素的钠离子通道也是培养的大鼠肌管中自发收缩的原因。在用神经毒素激活钠离子通道后,在不同分化阶段进行了22Na+通量研究。在发育的所有阶段,毒素激活的钠离子通道对海葵毒素具有相同的高亲和力;同样,对河豚毒素的敏感性也相同。(摘要截断于250字)

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Different functional states of tetrodotoxin sensitive and tetrodotoxin resistant Na+ channels occur during the in vitro development of rat skeletal muscle.在大鼠骨骼肌的体外发育过程中,会出现河豚毒素敏感型和河豚毒素抗性型钠离子通道的不同功能状态。
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Na+ channels with binding sites of high and low affinity for tetrodotoxin in different excitable and non-excitable cells.在不同的可兴奋细胞和非可兴奋细胞中,对河豚毒素具有高亲和力和低亲和力结合位点的钠离子通道。
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Na+ channels with high and low affinity tetrodotoxin binding sites in the mammalian skeletal muscle cell. Difference in functional properties and sequential appearance during rat skeletal myogenesis.哺乳动物骨骼肌细胞中具有高亲和力和低亲和力河豚毒素结合位点的钠离子通道。大鼠骨骼肌肌生成过程中功能特性及顺序出现的差异。
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本文引用的文献

1
The Na+ channel in mammalian cardiac cells. Two kinds of tetrodotoxin receptors in rat heart membranes.哺乳动物心肌细胞中的钠离子通道。大鼠心脏膜中的两种河豚毒素受体。
J Biol Chem. 1983 Jul 25;258(14):8799-805.
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Na+ channels with high and low affinity tetrodotoxin binding sites in the mammalian skeletal muscle cell. Difference in functional properties and sequential appearance during rat skeletal myogenesis.哺乳动物骨骼肌细胞中具有高亲和力和低亲和力河豚毒素结合位点的钠离子通道。大鼠骨骼肌肌生成过程中功能特性及顺序出现的差异。
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Biochem Biophys Res Commun. 1983 Feb 10;110(3):894-901. doi: 10.1016/0006-291x(83)91046-x.
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Improved patch-clamp techniques for high-resolution current recording from cells and cell-free membrane patches.用于从细胞和无细胞膜片进行高分辨率电流记录的改进膜片钳技术。
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