纽蛋白与透化细胞的相互作用：结合位点的破坏与重建

Vinculin interaction with permeabilized cells: disruption and reconstitution of a binding site.

作者信息

Ball E H, Freitag C, Gurofsky S

出版信息

J Cell Biol. 1986 Aug;103(2):641-8. doi: 10.1083/jcb.103.2.641.

DOI:10.1083/jcb.103.2.641

PMID:3090053

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2113843/

Abstract

Fluorescently labeled vinculin binds to focal contact areas in permeabilized cells independent of actin (Avnur, Z., J. V. Small, and B. Geiger, 1983, J. Cell Biol., 96:1622-1630), but the nature of the binding site is unknown. In this study we have examined the interaction of vinculin with these sites in permeabilized L6 myoblasts to define conditions that perturb the binding and subsequently to reconstitute it. Mild treatment with low concentrations of protease prevents vinculin incorporation without gross changes in the cytoskeleton or extensive protein breakdown. Exposure to buffers of moderate ionic strength also reduces subsequent vinculin binding without large morphological effects. These extraction conditions were used to obtain a fraction from gizzard which was able to restore the vinculin localization. Talin, actin, and vinculin itself were able to alter the binding of labeled vinculin to permeabilized cells and each also interacted with vinculin in gel overlays; however, they were unable to reconstitute the binding site in treated permeabilized cells. The results show a requirement for an as yet unidentified protein to capacitate vinculin binding to focal contact sites and suggest that this protein is peripheral and interacts directly with the binding site.

摘要

荧光标记的纽蛋白可独立于肌动蛋白与通透细胞中的粘着斑区域结合（Avnur, Z., J. V. Small, and B. Geiger, 1983, J. Cell Biol., 96:1622 - 1630），但其结合位点的性质尚不清楚。在本研究中，我们检测了纽蛋白与通透的L6成肌细胞中这些位点的相互作用，以确定干扰结合的条件，并随后进行重建。用低浓度蛋白酶进行温和处理可阻止纽蛋白掺入，而细胞骨架无明显变化或蛋白质无大量降解。暴露于中等离子强度的缓冲液中也会降低随后的纽蛋白结合，且无大的形态学影响。这些提取条件用于从砂囊中获得能够恢复纽蛋白定位的组分。踝蛋白、肌动蛋白和纽蛋白本身能够改变标记的纽蛋白与通透细胞的结合，并且它们在凝胶覆盖实验中也与纽蛋白相互作用；然而，它们无法在处理过的通透细胞中重建结合位点。结果表明，需要一种尚未鉴定的蛋白质来使纽蛋白能够结合到粘着斑位点，并表明该蛋白质是外周蛋白，且直接与结合位点相互作用。

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