OptoDyCE-plate as an affordable high throughput imager for all optical cardiac electrophysiology

Yuli W. Heinson , Julie L. Han , Emilia Entcheva
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Abstract

We present a simple low-cost system for comprehensive functional characterization of cardiac function under spontaneous and paced conditions, in standard 96 and 384-well plates. This full-plate actuator/imager, OptoDyCE-plate, uses optogenetic stimulation and optical readouts of voltage and calcium (parallel recordings from up to 100 wells in 384-well plates are demonstrated). The system is validated with syncytia of human induced pluripotent stem cell derived cardiomyocytes, iPSC-CMs, grown as monolayers, or in quasi-3D isotropic and anisotropic constructs using electrospun matrices, in 96 and 384-well format. Genetic modifications, e.g. interference CRISPR (CRISPRi), and nine compounds of acute and chronic action were tested, including five histone deacetylase inhibitors (HDACis). Their effects on voltage and calcium were compared across growth conditions and pacing rates. We also demonstrated optogenetic point pacing via cell spheroids to study conduction in 96-well format, as well as temporal multiplexing to register voltage and calcium simultaneously on a single camera. Opto-DyCE-plate showed excellent performance even in the small samples in 384-well plates. Anisotropic structured constructs may provide some benefits in drug testing, although drug responses were consistent across tested configurations. Differential voltage vs. calcium responses were seen for some drugs, especially for non-traditional modulators of cardiac function, e.g. HDACi, and pacing rate was a powerful modulator of drug response, highlighting the need for comprehensive multiparametric assessment, as offered by OptoDyCE-plate. Increasing throughput and speed and reducing cost of screening can help stratify potential compounds early in the drug development process and accelerate the development of safer drugs.

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optodyce板作为一种经济实惠的高通量成像所有光学心脏电生理
我们提出了一个简单的低成本系统,用于在自发和有节奏的条件下对心脏功能进行全面的功能表征,在标准的96孔板和384孔板上。这个全板驱动器/成像仪,optodyce板,使用光遗传刺激和电压和钙的光学读数(384孔板中多达100个孔的平行记录被演示)。该系统在96孔和384孔格式的人类诱导多能干细胞衍生的心肌细胞(iPSC-CMs)合胞体中进行了验证,iPSC-CMs可以单层生长,也可以在准3d各向同性和各向异性结构中使用静电纺基质生长。测试了基因修饰,例如干扰CRISPR (CRISPRi),以及9种急性和慢性作用的化合物,包括5种组蛋白去乙酰化酶抑制剂(HDACis)。它们对电压和钙的影响在生长条件和起搏速率下进行了比较。我们还演示了通过细胞球体进行光遗传点起搏,以研究96孔格式的传导,以及在单个摄像机上同时记录电压和钙的时间复用。opto - dyce板在384孔板的小样品中也表现出优异的性能。各向异性结构结构可能在药物测试中提供一些好处,尽管药物反应在测试配置中是一致的。一些药物的电压与钙反应存在差异,特别是对于HDACi等非传统心功能调节剂,起搏速率是药物反应的有力调节剂,这突出了对多参数综合评估的需求,如optodyce板所提供的。提高通量和速度以及降低筛选成本有助于在药物开发过程的早期对潜在化合物进行分层,并加速开发更安全的药物。
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来源期刊
Journal of molecular and cellular cardiology plus
Journal of molecular and cellular cardiology plus Cardiology and Cardiovascular Medicine
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31 days
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