Inhibition of neurotransmitter release by botulinum neurotoxins and tetanus toxin at Aplysia synapses: role of the constituent chains.

Journal de physiologie Pub Date : 1990-01-01
B Poulain, S Mochida, J D Wadsworth, U Weller, E Habermann, J O Dolly, L Tauc
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引用次数: 0

Abstract

1. The effects on the release of transmitter by botulinum neurotoxins (BoNT; types A, B, E), tetanus toxin (TeTx), constituent chains or fragments were studied on identified cholinergic and non-cholinergic synapses in Aplysia. 2. Cholinergic synapses in the buccal ganglion were found to be greater than 100 fold more sensitive to extracellular application of BoNT than to TeTx whereas in non-cholinergic synapses of the cerebral ganglion the potencies of the toxins were reversed. When intracellularly applied TeTx and BoNT were found nearly equipotent. This disparity in the susceptibilities of BoNT and TeTx to inhibit transmission was attributed to differences in the toxin's acceptors or uptake systems in the two neurone types. 3. Micro-injection into cholinergic neurones of the isolated renatured toxins' chains showed that both light and heavy chains of BoNT are intracellularly required whereas the light chain of TeTx alone is sufficient. 4. The heavy chain of BoNT as well as that of TeTx were found to mediate internalization of active moieties via its amino-terminal half. Furthermore the heavy chain of one toxin could internalize the light chain of the other.

肉毒杆菌神经毒素和破伤风毒素对海马突触神经递质释放的抑制:成分链的作用。
1. 肉毒杆菌神经毒素对神经递质释放的影响研究了A、B、E型、破伤风毒素(TeTx)、组成链或片段在已鉴定的白蛉胆碱能突触和非胆碱能突触上的作用。颊神经节中的胆碱能突触对细胞外应用BoNT的敏感性比对TeTx的敏感性高100倍以上,而在大脑神经节的非胆碱能突触中,毒素的效力是相反的。当细胞内应用TeTx和BoNT时,发现它们几乎是相等的。BoNT和TeTx在抑制传播方面的敏感性差异归因于两种神经元类型中毒素受体或摄取系统的差异。3.将分离的再生毒素链微注射到胆碱能神经元中,细胞内需要BoNT的轻链和重链,而仅需要TeTx的轻链就足够了。4. BoNT的重链和TeTx的重链通过其氨基末端一半介导活性部分的内在化。此外,一种毒素的重链可以内化另一种毒素的轻链。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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