Introduction:
How to precisely evaluate response in newly developed medications in vitro may be a great concern in drug screening. We modified normal low-attachment culture dish and created closed-loop tissue ring from single hiPSC-CMs. We hypothesized that the re-entrant wave (ReW) could originate and pace the cardiac tissue ring, and the CMs under pacing could be matured and used for drug assessment.
Methods:
PDMS wells and pillars were mounted in low-attachment petri dishes (Figure 1A). 4 х 10
5
hiPSC-CMs were plated into the wells to form tissue ring where the ReW could spontaneously originate. After cultivation for 14 days, the hiPSC-CMs were evaluated by immunostaining and gene expression. Micro electrode array (MEA) were used to evaluating the CM response to different drugs.
Results:
The electrical signal recorded by MEA indicated that the ReWs could make the CMs beat at a much higher rate than the Control group (Figure 1B, 123.26 ± 10.36 bpm vs. 14.08 ± 4.53 bpm, p<0.0001). After 14 day culture, the ReW group demonstrated significantly higher expression of Troponin T (TnT2), myosin heavy chain 7 (β-MHC), and α-actinin. Interestingly, the α-actinin staining indicated alignment of CMs within the ReW group (Figure 1C). The CMs under ReW pacing showed robust response to several cardiac compounds including E4031, (hERG K+ channel blocker, Figure 1D and E), isoproterenol (β adrenoceptor agonist) and propranolol (beta-blocker). Both the field potential as well as the Ca
2+
transients showed correlated dose-dependent change and the recovering after washout of the drugs.
Conclusions:
The ReWs could spontaneously originate in the cultured cardiac tissue ring with enhancement of the maturation in the hiPSC-CMs and robust response to various drugs, indicating the system as a robust drug assessment system with multiple read-out methods.