Establishing a High-content Analysis Method for Tubulin Polymerization to Evaluate Both the Stabilizing and Destabilizing Activities of Compounds.

Chi Shing Sum, Debra Nickischer, Ming Lei, Andrea Weston, Litao Zhang, Liang Schweizer
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引用次数: 20

Abstract

Microtubules are important components of the cellular cytoskeleton that play roles in various cellular processes such as vesicular transport and spindle formation during mitosis. They are formed by an ordered organization of α-tubulin and β-tubulin hetero-polymers. Altering microtubule polymerization has been known to be the mechanism of action for a number of therapeutically important drugs including taxanes and epothilones. Traditional cell-based assays for tubulin-interacting compounds rely on their indirect effects on cell cycle and/or cell proliferation. Direct monitoring of compound effects on microtubules is required to dissect detailed mechanisms of action in a cellular setting. Here we report a high-content assay platform to monitor tubulin polymerization status by directly measuring the acute effects of drug candidates on the cellular tubulin network with the capability to dissect the mechanisms of action. This high-content analysis distinguishes in a quantitative manner between compounds that act as tubulin stabilizers versus those that are tubulin destabilizers. In addition, using a multiplex approach, we expanded this analysis to simultaneously monitor physiological cellular responses and associated cellular phenotypes.

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建立微管蛋白聚合的高含量分析方法以评价化合物的稳定和不稳定活性。
微管是细胞骨架的重要组成部分,在有丝分裂过程中,微管在囊泡运输和纺锤体形成等多种细胞过程中发挥重要作用。它们是由α-微管蛋白和β-微管蛋白异质聚合物有序排列而成。改变微管聚合已被认为是许多治疗重要药物的作用机制,包括紫杉烷和埃泊霉素。传统的基于细胞的微管蛋白相互作用化合物的检测依赖于它们对细胞周期和/或细胞增殖的间接影响。需要对微管的复合效应进行直接监测,以便在细胞环境中详细剖析其作用机制。在这里,我们报告了一个高含量的检测平台,通过直接测量候选药物对细胞微管蛋白网络的急性作用来监测微管蛋白聚合状态,并具有解剖作用机制的能力。这种高含量的分析以定量的方式区分作为微管蛋白稳定剂的化合物与作为微管蛋白不稳定剂的化合物。此外,使用多重方法,我们扩展了这一分析,同时监测生理细胞反应和相关的细胞表型。
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