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High-throughput longitudinal electrophysiology screening of mature chamber-specific hiPSC-CMs using optical mapping

Andrew C. Allan, Jeffery Creech, Christian Hausner, Peyton Krajcarski, Bianca Gunawan, Noah Poulin, Paul Kozlowski, Christopher Wayne Clark, Rachel E. Dow, Prakaimuk Saraithong, Devin B. Mair, Travis J. Block, André Monteiro da Rocha, Deok‐Ho Kim, Todd J. Herron

2023iScience17 citationsDOIOpen Access PDF

Abstract

cardiotoxicity screening to provide human-relevant safety data. Widespread adoption of hiPSC-CMs in regulatory and academic science is limited by the immature, fetal-like phenotype of the cells. Here, to advance the maturation state of hiPSC-CMs, we developed and validated a human perinatal stem cell-derived extracellular matrix coating applied to high-throughput cell culture plates. We also present and validate a cardiac optical mapping device designed for high-throughput functional assessment of mature hiPSC-CM action potentials using voltage-sensitive dye and calcium transients using calcium-sensitive dyes or genetically encoded calcium indicators (GECI, GCaMP6). We utilize the optical mapping device to provide new biological insight into mature chamber-specific hiPSC-CMs, responsiveness to cardioactive drugs, the effect of GCaMP6 genetic variants on electrophysiological function, and the effect of daily β-receptor stimulation on hiPSC-CM monolayer function and SERCA2a expression.

Topics & Concepts

ElectrophysiologyCell biologyFunction (biology)Food and drug administrationPhenotypeExtracellularCalciumCell cultureHigh-throughput screeningBiologyComputational biologyNeurosciencePharmacologyMedicineBioinformaticsInternal medicineBiochemistryGeneticsGeneNeuroscience and Neural Engineering3D Printing in Biomedical ResearchPluripotent Stem Cells Research
High-throughput longitudinal electrophysiology screening of mature chamber-specific hiPSC-CMs using optical mapping | Litcius