Suramin inhibits the early effects of PLA(2) neurotoxins at mouse neuromuscular junctions: A twitch tension study.

Journal of Venom Research Pub Date : 2011-01-02
Behrooz Fathi, Alan L Harvey, Edward G Rowan
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Abstract

Several phospholipase A(2) (PLA(2)) neurotoxins from snake venoms can affect acetylcholine release at the neuromuscular junction. In isolated nerve-muscle preparations three distinct phases have been described for this phenomenon: An initial transient decrease in twitch tension; a second facilitatory phase during which twitch height is greater than control twitch height; and the last phase which causes a reduction in twitch height that finally results in paralysis. Suramin has been reported to inhibit the toxic effects of β-bungarotoxin and another PLA(2) neurotoxin, crotoxin in vitro and in vivo. We have further examined the effects of suramin on the three phases of the effects of the presynaptic PLA(2) neurotoxins β-bungarotoxin, taipoxin and ammodytoxin on mouse phrenic nerve-hemidiaphragm preparations. When preparations were pre-treated with suramin (0.3mM), the early biphasic effects (depression followed by facilitation) were abolished, and the time taken for final blockade induced by β-bungarotoxin, taipoxin and ammodytoxin A was significantly prolonged. In contrast, suramin did not significantly affect the facilitation induced by the potassium channel blocking toxin dendrotoxin I when applied under the same conditions. In addition, application of 0.3mM suramin did not prevent the facilitatory actions of 3,4-diaminopyridine (3,4-DAP) and tetraethylammonium chloride (TEA). Overall, the mechanism whereby suramin reduces the effects of PLA(2) neurotoxins remains elusive. Since suramin reduces both enzyme-dependent and enzyme-independent effects of the toxins, suramin is not acting as a simple enzyme inhibitor. Furthermore, the observation that suramin does not affect actions of standard K(+) channel blockers suggests that suramin does not stabilise nerve terminals.

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苏拉明抑制PLA(2)神经毒素在小鼠神经肌肉连接处的早期作用:一项抽搐张力研究。
几种来自蛇毒的磷脂酶A(2) (PLA(2))神经毒素可以影响神经肌肉连接处的乙酰胆碱释放。在分离的神经-肌肉制剂中,描述了这一现象的三个不同阶段:抽搐张力的初始短暂下降;抽搐高度大于控制抽搐高度的第二促进阶段;最后一个阶段导致抽搐高度降低,最终导致瘫痪。苏拉明在体外和体内均有抑制β-邦加罗毒素和另一种PLA(2)神经毒素——响尾蛇毒素的毒性作用的报道。我们进一步研究了苏拉明对突触前PLA(2)神经毒素β-班加罗毒素、taipoxin和ammodytoxin对小鼠膈神经-膈膜制剂的三个阶段的影响。经苏拉明(0.3mM)预处理后,早期双相效应(先抑制后促进)被消除,β-班加罗毒素、taipoxin和ammodytoxin A诱导的最终阻断时间明显延长。相比之下,在相同条件下,苏拉明对钾通道阻断毒素树突毒素I诱导的促进作用没有显著影响。此外,0.3mM苏拉明的应用并没有阻止3,4-二氨基吡啶(3,4- dap)和四乙基氯化铵(TEA)的促进作用。总的来说,苏拉明降低PLA(2)神经毒素作用的机制仍然难以捉摸。由于苏拉明降低了毒素的酶依赖性和酶非依赖性作用,苏拉明不是作为简单的酶抑制剂起作用。此外,苏拉明不影响标准K(+)通道阻滞剂的作用,这表明苏拉明不能稳定神经末梢。
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