肉毒杆菌神经毒素对递质的多相抑制作用的线索。

Journal de physiologie Pub Date : 1990-01-01
J O Dolly, A C Ashton, C McInnes, J D Wadsworth, B Poulain, L Tauc, C C Shone, J Melling
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引用次数: 0

摘要

1. 为了深入了解Ca2(+)依赖性分泌的机制,研究了肉毒杆菌神经毒素或其片段对哺乳动物运动神经末梢、脑皮质突触体和PC-12细胞中递质释放的抑制作用。2. 相对于BoNT A型,其两条链的神经肌肉麻痹活性微弱,并且在蛋白水解片段H2L(缺乏H1,重链的c端一半)中观察到缺乏活性,这表明需要完整的二硫链双链蛋白才能有效靶向(结合/摄取)外周胆碱能神经末梢。3.在PC-12细胞中,当使用洋地黄苷透化来克服摄取屏障时,单独的再生轻链被证明在减少Ca2(+)引起的去甲肾上腺素释放方面与整个毒素同样有效。在非变性条件下,用10 mM二硫苏糖醇处理BoNT A在减少其链间二硫键方面不是很有效,对所见的抑制水平影响不大。4. 改变环核苷酸(C - amp, C - gmp)或蛋白激酶C活性的突触内浓度不能影响BoNT A或B引起的Ca2(+)依赖性K(+)刺激的去甲肾上腺素释放的减少。另一方面,用离子载体A23187提高胞质Ca2+浓度比B型更大程度地逆转了BoNT A的抑制作用,揭示了它们的作用差异。5. 虽然BoNT诱导的Ca2(+)依赖性K(+)诱发的去甲肾上腺素释放的减少不受细胞松弛素D破坏突触体中肌动蛋白为基础的细胞骨架的影响,但用水仙碱、诺可唑或灰黄霉素破坏微管可以拮抗细胞内B型的作用,而不是a型。据推测,BoNT B通过干扰突触囊泡与微管的分离来阻止递质释放。确定微管蛋白在毒素作用中的确切参与可能为神经递质释放及其控制的机制提供有价值的线索。
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Clues to the multi-phasic inhibitory action of botulinum neurotoxins on release of transmitters.

1. With the aim of gaining insight into the mechanism of Ca2(+)-dependent secretion, inhibition of transmitter release by botulinum neurotoxins or their fragments was studied at mammalian motor nerve terminals, cerebrocortical synaptosomes and PC-12 cells. 2. Relative to BoNT type A, the feeble neuromuscular paralytic activity of its two chains and the lack of activity observed with a proteolytic fragment, H2L (lacking H1, the C-terminal half of the heavy chain) highlight a requirement of the intact, disulphide-linked dichain protein for efficient targetting (binding/uptake) to peripheral cholinergic nerve endings. 3. In PC-12 cells, the renatured light chain alone proved equally potent as the whole toxin in reducing Ca2(+)-evoked noradrenaline release, when digitonin-permeabilization was used to overcome the uptake barrier. Treatment of BoNT A with 10 mM dithiothreitol, under non-denaturing conditions, was not very effective in reducing its inter-chain disulphide bond(s) and had little influence on the level of inhibition seen. 4. Altering the intra-synaptosomal concentrations of cyclic nucleotides (c-AMP, c-GMP) or protein kinase C activity failed to affect the reduction of Ca2(+)-dependent K(+)-stimulated noradrenaline release caused by BoNT A or B. On the other hand, raising the cytosolic Ca2+ concentration with the ionophore A23187 reversed the inhibitory effect of BoNT A to a greater extent than that of type B, revealing differences in their actions. 5. Whereas BoNT-induced decrease of Ca2(+)-dependent K(+)-evoked release of noradrenaline was unaffected by destruction of the actin-based cytoskeleton in synaptosomes with cytochalasin D, disassembly of microtubules with colchicine, nocodazole or griseofulvin antagonised the intracellular action of type B but not A. It is speculated that BoNT B blocks transmitter release by interfering with the proposed detachment of synaptic vesicles from microtubules. Establishing the precise involvement of tubulin in the toxin's action may provide a valuable clue to the mechanism of neurotransmitter release or its control.

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