Translocation of diphtheria toxin to the cytosol and formation of cation selective channels.

Journal de physiologie Pub Date : 1990-01-01
S Olsnes, J O Moskaug, H Stenmark, K Sandvig
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引用次数: 0

Abstract

A number of protein toxins act by translocating an enzymatically active polypeptide to the cytosol. The translocation process is best understood in the case of diphtheria toxin which binds to cell surface receptors, is then taken up by endocytosis and is subsequently translocated to the cytosol, where it inactivates elongation factor 2. The translocation of the enzymatically active part of the toxin can be induced at the level of the plasma membrane upon exposure to low pH of cells with surface-bound toxin. Receptor molecules appear to be involved in the translocation process, which also requires an inward directed H(+)-gradient and permeant anions. Cation-selective channels are formed in the membrane upon toxin entry. The B-fragment alone is much more efficient in inducing channels than the whole toxin. The current model of the translocation process is discussed.

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白喉毒素在细胞质中的易位和阳离子选择通道的形成。
许多蛋白质毒素通过将酶活性多肽转移到细胞质中而起作用。易位过程在白喉毒素与细胞表面受体结合的情况下得到了最好的理解,然后被内吞作用吸收,随后易位到细胞质中,在那里它使伸长因子2失活。暴露于具有表面结合毒素的低pH细胞时,可在质膜水平诱导毒素酶活性部分的易位。受体分子似乎参与了易位过程,这也需要向内定向的H(+)梯度和渗透阴离子。在毒素进入时,膜上形成阳离子选择通道。单独的b片段在诱导通道方面比整个毒素更有效。讨论了当前的易位过程模型。
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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Control of the maturation and the survival of central noradrenergic neurons in culture. Expression of T-type calcium current precedes neurite extension in neuroblastoma cells. Synaptic formations and modulations of synaptic transmissions between identified cerebellar neurons in culture. Regulation of neurotransmitter synthesis: from neuron to gene. In vitro and in vivo regulation of the expression of the tyrosine hydroxylase gene.
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