海葵毒素II诱导通过巨型磷脂囊泡膜运输的机制。

Mechanisms of equinatoxin II-induced transport through the membrane of a giant phospholipid vesicle.

作者信息

Mally M, Majhenc J, Svetina S, Zeks B

机构信息

Institute of Biophysics, Faculty of Medicine, University of Ljubljana, 1000 Ljubljana, Slovenia.

出版信息

Biophys J. 2002 Aug;83(2):944-53. doi: 10.1016/S0006-3495(02)75220-X.

DOI:10.1016/S0006-3495(02)75220-X

PMID:12124276

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1302198/

Abstract

Protein equinatoxin II from sea anemone Actinia equina L. was used to form pores in phospholipid membranes. We studied the effect of these pores on the net transmembrane transport of sucrose and glucose by observing single giant (cell-size) vesicles under the phase contrast microscope. Sugar composition in the vesicle was determined by measuring the width of the halo, which appears around the vesicle in the phase contrast image. The transport of sugars was induced when a vesicle, filled with the sucrose solution, was transferred into the isomolar environment of a glucose solution with added equinatoxin II. Typically, a vesicle grew to a critical size, then the membrane broke by bursting and the vesicle shrank, started to grow again, and the whole process was repeated. The consecutive membrane breaks occurred in the same spot. The observed behavior was interpreted by the diffusion flow of the glucose molecules through the equinatoxin II-induced pores and the consequent increase of the vesicle water content. The burst relaxed the critically strained membrane, which then apparently resealed. A mathematical model of the described behavior was developed and was used to obtain the equinatoxin II-induced membrane permeability for the glucose molecules. Its dependence on the equinatoxin II concentration is in agreement with the previous reports.

摘要

来自海葵（Actinia equina L.）的蛋白质海葵毒素II被用于在磷脂膜上形成孔道。我们通过在相差显微镜下观察单个巨大（细胞大小）囊泡，研究了这些孔道对蔗糖和葡萄糖跨膜净转运的影响。通过测量相差图像中囊泡周围出现的光晕宽度来确定囊泡中的糖成分。当一个充满蔗糖溶液的囊泡转移到添加了海葵毒素II的等摩尔葡萄糖溶液环境中时，糖的转运被诱导。通常，一个囊泡生长到临界大小，然后膜破裂并收缩，接着又开始生长，整个过程重复进行。连续的膜破裂发生在同一点。观察到的行为被解释为葡萄糖分子通过海葵毒素II诱导的孔道的扩散流以及随之而来的囊泡含水量增加。破裂缓解了严重拉伸的膜，然后膜显然重新封闭。建立了所描述行为的数学模型，并用于获得海葵毒素II诱导的葡萄糖分子的膜通透性。其对海葵毒素II浓度的依赖性与先前的报道一致。

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