Voldřich Jan, Matoušová Marika, Šmídková Markéta, Mertlíková-Kaiserová Helena
Institute of Organic Chemistry and Biochemistry, Academy of Sciences of the Czech Republic, Flemingovo nam. 2, Prague 6 - Dejvice, 16610, Czech Republic.
University of Chemistry and Technology, Technická 5, Prague 6 - Dejvice, 166 28, Czech Republic.
ChemMedChem. 2024 Dec 16;19(24):e202400383. doi: 10.1002/cmdc.202400383. Epub 2024 Oct 29.
Ion channels represent a druggable family of transmembrane pore-forming proteins with important (patho)physiological functions. While electrophysiological measurement (manual patch clamp) remains the only direct method for detection of ion currents, it is a labor-intensive technique. Although automated patch clamp instruments have become available to date, their high costs limit their use to large pharma companies or commercial screening facilities. Therefore, fluorescence-based assays are particularly important for initial screening of compound libraries. Despite their numerous disadvantages, they are highly amenable to high-throughput screening and in many cases, no sophisticated instrumentation or materials are required. These features predispose them for implementation in early phases of drug discovery pipelines (hit identification), even in an academic environment. This review summarizes the advantages and pitfalls of individual methodological approaches for identification of ion channel modulators employing fluorescent probes (i. e., membrane potential and ion flux assays) with emphasis on practical aspects of their adaptation to high-throughput format.
离子通道是一类可成药的跨膜孔形成蛋白家族,具有重要的(病理)生理功能。虽然电生理测量(手动膜片钳)仍然是检测离子电流的唯一直接方法,但它是一项劳动密集型技术。尽管到目前为止已经有了自动膜片钳仪器,但其高昂的成本限制了它们仅能被大型制药公司或商业筛选机构使用。因此,基于荧光的检测方法对于化合物库的初步筛选尤为重要。尽管它们有许多缺点,但它们非常适合高通量筛选,并且在许多情况下,不需要复杂的仪器或材料。这些特性使它们适合在药物发现流程的早期阶段(活性筛选)实施,即使是在学术环境中也是如此。本综述总结了使用荧光探针识别离子通道调节剂的各种方法(即膜电位和离子通量检测)的优点和陷阱,重点介绍了将其应用于高通量形式的实际操作方面。
