[鱼毒液的药理特性]。

F Goudey-Perrière, C Perrière
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引用次数: 0

摘要

鱼的毒液对脊椎动物来说是致命的。其效果取决于剂量和对象,而不是受感染的鱼。最常见的症状是剧痛;但严重的药理作用是呼吸和心力衰竭,伴有明显的低血压和心脏紊乱,神经损伤,如癫痫发作和昏迷。由于毒液不稳定,实验很困难。通过蒸馏水、在缓冲液中冻干、几次连续的冷冻和解冻,活性丧失。此外,当蛇毒破碎时,其他药理作用也得到证实,如疣状蛇毒,高血压期取代低血压期。很难将毒素效应与毒素的变性产物效应区分开来。去甲肾上腺素存在于海蛾毒液中,而乙酰胆碱似乎也存在于某些毒液中,至少在盐水溶液中稀释后是如此。其他生物活性产物也存在。纯化的毒素可以进行药理学研究。石鱼的毒液研究得更好,因为毒腺含有相对较高的毒液量。巨藻毒素通过释放no合酶发挥作用,其主要作用可归因于其强大的血管松弛活性,引起快速、明显和不可逆的低血压。产自短叶连菌的短叶连菌素会导致乙酰胆碱的大量释放和消耗,并对神经和肌肉纤维造成损伤,从而导致神经肌肉功能的抑制和骨骼瘫痪。但使用的剂量与呼吸停止不相容。疣菌毒素激活依赖ATP的钾通道;这可以解释损伤,可能还有神经和呼吸窘迫。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Pharmacological properties of fish venoms].

Fish venoms can be lethal for Vertebrates. The effect depends of dose and subject, more than incriminated fish. The most constant symptom is a violent pain; but the serious pharmacological effects are respiratory and heart failure with marked hypotension and cardiac perturbations, neurologic damage, such as seizure and coma. Experimentation is difficult due to venom instability. Activity is lost by distilled water, lyophilisation in buffers, several successive freezing and defreezing. In addition, when venom is broken, other pharmacological effects are evidenced, for instance, with Synanceia verrucosa venom, hypertensive phase takes the place of hypotension. It is difficult to distinguish toxin effect from this of denaturation products of the toxin. Noradrenaline is present in Synanceia venom, and it seems that acetylcholine exists in some venom, at least when diluted in saline solution. Other biological active products are present. Purified toxins allow pharmacological investigations. Stonefish venom is better studied, because venomous glands contain relatively high venom quantity. Stonustoxin from Synanceia horrida exerts its action through NO-synthase liberation, and its primary action can be attributed to its potent vasorelaxant activity, causing a rapid, marked and irreversible hypotension. Trachynilysin, from Synanceia trachynis, causes massive release and depletion of acetylcholine and damage to nerve and muscle fibres, which can account for the inhibition of neuromuscular function, and skeletal paralysis. But the used doses are not compatible with respiratory arrest. Verrucotoxin from Synanceia verrucosa activates potassium channels dependent from ATP; this can explain damage, and probably neurologic and respiratory distress.

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