破伤风毒素的链和片段及其对毒性的贡献。

Journal de physiologie Pub Date : 1990-01-01
G Ahnert-Hilger, M E Dauzenroth, E Habermann, A Henschen, K Krieglstein, F Mauler, U Weller
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引用次数: 0

摘要

1. 单链毒素被酶转化为与前体不同的双链同工毒素,它们具有更高的药理活性、酸度和亲水性。片段C内的链间二硫桥和二硫环位于氨基酸水平。2. 与所使用的酶无关,缺口位点位于不超过17个氨基酸的区域内。原基因产物的N端和c端保存在双链毒素中。这些链已被等电聚焦分离,并可重组为功能完整的毒素。3.轻链抑制不同系统的神经递质释放。首先,渗透化的牛肾上腺嗜铬细胞和大鼠嗜铬细胞瘤(pc12)细胞在暴露于微摩尔[Ca2+]时释放儿茶酚胺。抑制作用由轻链或还原的双链毒素实现,而不是单链或重链毒素。洗去轻链并不能恢复Ca2(+)诱发的释放。破伤风和A型肉毒杆菌毒素的轻链作用方式明显相似,但并不完全相同。其次,轻链而非重链在注射到海马神经元时抑制乙酰胆碱的释放。4. 重链的药理学是完全不同的。神经节苷脂结合由其C片段介导,并由相邻的β 2片段和轻链调节。重链及其n端β 2片段在较小程度上促进钙黄蛋白从脂质体中丢失,表明孔隙形成。它的C端片段C在这方面没有活性。(摘要删节250字)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chains and fragments of tetanus toxin, and their contribution to toxicity.

1. Single-chain toxin is enzymatically converted into two-chain isotoxins which differ from the precursor by their higher pharmacological activity, acidity and hydrophilicity. The interchain disulfide bridge and the disulfide loop within fragment C have been located at the amino acid level. 2. Independent of the enzymes used, the nicking sites are positioned within a region spanning no more than 17 amino acids. The N- and C-termini of the primary gene product are preserved in the two-chain toxin. The chains have been separated by isoelectric focussing and can be reconstituted to functionally intact toxin. 3. Light chain inhibits neurotransmitter release on different systems. First, permeabilized bovine adrenal chromaffin cells and rat pheochromocytoma (PC 12) cells release catecholamines when exposed to micromolar [Ca2+]. Inhibition is achieved with light chain or reduced two-chain toxin, but not with single-chain toxin or heavy chain. Washing away the light chain does not restitute the Ca2(+)-evoked release. The light chains of tetanus and botulinum A toxin act in a apparently similar, however not identical manner. Second, light but not heavy chain inhibits the release of acetylcholine when injected into Aplysia neurones. 4. The pharmacology of heavy chain is quite different. Ganglioside binding is mediated by its fragment C moiety, and modulated by the adjoining beta 2 piece and by light chain. Heavy chain and to a lesser degree its N-terminal beta 2-fragment promote the loss of calcein from liposomes indicating pore formation. Its C-terminal fragment C is inactive in this respect.(ABSTRACT TRUNCATED AT 250 WORDS)

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