无标签动态质量重分布和生物阻抗方法用于药物发现。

Q2 Pharmacology, Toxicology and Pharmaceutics

Current Protocols in Pharmacology Pub Date : 2017-06-22 DOI:10.1002/cpph.24

Manuel Grundmann

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引用次数: 8

摘要

无标签生物传感器越来越多地应用于药物发现。基于细胞的生物传感器对细胞和组织暴露于化学制剂的生物学后果以及与这些效应相关的潜在分子机制提供了有价值的见解。基于动态质量重分布(DMR)检测的光学生物传感器和基于细胞介电光谱(CDS)的阻抗生物传感器可以实时捕捉活细胞骨架的变化。由于信号转导与细胞形态的变化相关，DMR和CDS生物传感器非常适合以一种无偏的、途径特异性的方式记录完整的细胞反应，而不需要使用可能干扰细胞功能的标签。本单元介绍了几种实验方法，利用光学无标签系统捕获活细胞中的动态质量重分布(DMR) (Epic system)和基于阻抗的CDS技术(CellKey)。此外，还讨论了与这些分析相关的潜在缺陷以及克服此类技术挑战的替代方法。©2017 by John Wiley & Sons, Inc。

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Label-Free Dynamic Mass Redistribution and Bio-Impedance Methods for Drug Discovery.

Label-free biosensors are increasingly employed in drug discovery. Cell-based biosensors provide valuable insights into the biological consequences of exposing cells and tissues to chemical agents and the underlying molecular mechanisms associated with these effects. Optical biosensors based on the detection of dynamic mass redistribution (DMR) and impedance biosensors using cellular dielectric spectroscopy (CDS) capture changes of the cytoskeleton of living cells in real time. Because signal transduction correlates with changes in cell morphology, DMR and CDS biosensors are exquisitely suited for recording integrated cell responses in an unbiased, yet pathway-specific manner without the use of labels that may interfere with cell function. Described in this unit are several experimental approaches utilizing optical label-free system capturing dynamic mass redistribution (DMR) in living cells (Epic System) and an impedance-based CDS technology (CellKey). In addition, potential pitfalls associated with these assays and alternative approaches for overcoming such technical challenges are discussed. © 2017 by John Wiley & Sons, Inc.

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Current Protocols in Pharmacology Pharmacology, Toxicology and Pharmaceutics-Pharmacology

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