TTX, cations and spider venom modify avian muscle tone in vitro.

Journal of Venom Research Pub Date : 2011-01-02
Volker Herzig, Wayne C Hodgson, Edward G Rowan
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Abstract

Agents that reduce skeletal muscle tone may have a number of useful clinical applications, e.g., for muscle spasticity and other muscle disorders. Recently, we reported that the venoms of two species of Australian theraphosid (Araneae, Theraphosidae) spiders (Coremiocnemis tropix and Selenotholus foelschei) reduced the baseline tension of chick biventer cervicis nerve-muscle preparation. The purpose of this study was to determine the underlying physiology mediating the change in muscle tension, which was addressed by conducting isometric tension experiments. We found that MgCl(2) (20mM), CaCl(2) (20mM), tetrodotoxin (1μM) or C. tropix venom (2μl/ml) produced a similar decrease in baseline tension, whereas d-tubocurarine (100μM), gadolinium (1mM), verapamil (10mM), an increase in osmotic pressure by the addition of glucose (40mM), or the presence/absence of electrical stimulation did not produce a significant change in baseline tension. We suggest that mechanosensitive or muscle TTX-sensitive sodium channels are activated during muscle stretch. This may have implications for the treatment of stretch induced muscle damage.

Abstract Image

TTX、阳离子和蜘蛛毒液对禽类肌张力的体外调节作用。
降低骨骼肌张力的药物可能有许多有用的临床应用,例如,用于肌肉痉挛和其他肌肉疾病。最近,我们报道了两种澳大利亚蛇蛛科(蜘蛛目,蛇蛛科)蜘蛛(Coremiocnemis tropix和Selenotholus foelschei)的毒液降低了鸡颈神经-肌肉准备的基线张力。本研究的目的是确定介导肌肉张力变化的潜在生理学,这是通过进行等长张力实验来解决的。我们发现,MgCl(2) (20mM)、CaCl(2) (20mM)、河豚毒素(1μM)或tropix毒液(2μl/ml)会产生类似的基线张力降低,而d-管curarine (100μM)、钆(1mM)、维拉帕米(10mM)、添加葡萄糖增加渗透压(40mM)或存在/不存在电刺激都不会产生基线张力的显著变化。我们认为,在肌肉拉伸期间,机械敏感或肌肉ttx敏感的钠通道被激活。这可能对拉伸引起的肌肉损伤的治疗有启示。
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