利用微流控芯片高通量检测间隙连接蛋白 43 通道的扩散
High throughput assay of diffusion through Cx43 gap junction channels with a microfluidic chip.
机构信息
Department of Mechanical and Aerospace Engineering, SUNY-Buffalo, Buffalo, New York 14260, USA.
出版信息
Anal Chem. 2011 Feb 1;83(3):933-9. doi: 10.1021/ac102658h. Epub 2010 Dec 23.
Abstract
This paper describes a microfluidic-based assay capable of measuring gap-junction mediated dye diffusion in cultured cells. The technique exploits multistream laminar flow to selectively expose cells to different environments, enabling continuous loading of cells in one compartment while monitoring, in real time, dye diffusion into cells of a neighboring compartment. A simple one-dimensional diffusion model fit to the data extracted the diffusion coefficient of four different dyes, 5-(6)-carboxyfluorescein, 5-chloromethylfluorescein, Oregon green 488 carboxylic acid, and calcein. Different inhibitors were assayed for their ability to reduce dye coupling. The chip can screen multiple inhibitors in parallel in the same cell preparation, demonstrating its potential for high throughput. The technique provides a convenient method to measure gap junction mediated diffusion and a screen for drugs that affect gap junction communication.
摘要
本文描述了一种基于微流控的分析方法,能够测量培养细胞中的间隙连接介导的染料扩散。该技术利用多流层流来选择性地使细胞暴露于不同的环境中,从而能够在一个隔室中连续加载细胞,同时实时监测染料扩散到相邻隔室的细胞中。对数据进行的简单一维扩散模型拟合提取了四种不同染料(5-(6)-羧基荧光素、5-氯甲基荧光素、Oregon Green 488 羧酸和钙黄绿素)的扩散系数。还测定了不同抑制剂对染料偶联的抑制能力。该芯片可以在同一细胞制剂中平行筛选多种抑制剂,显示了其高通量筛选的潜力。该技术为测量间隙连接介导的扩散提供了一种方便的方法,并可用于筛选影响间隙连接通讯的药物。
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