Abstract 477: Modeling the Effect of TBX5 Downregulation on Human Atrial Conduction Using Induced Pluripotent Stem Cell-derived Cardiomyocytes

Autor: R. E Gonzalez, Zhi Hong Lu, Stacey Rentschler, Laura Houshmand, Sergey Yechikov, David T. Curiel, Steven C. George, Sherri M Biendarra-tiegs
Rok vydání: 2020
Předmět:
Zdroj: Circulation Research. 127
ISSN: 1524-4571
0009-7330
DOI: 10.1161/res.127.suppl_1.477
Popis: Atrial fibrillation (AF) poses a notable healthcare burden due to a high incidence in the increasing population over age 65 and limitations of current treatment approaches. One challenge to effectively treat AF is patient-to-patient heterogeneity in the underlying mechanisms of disease. Therefore, a better understanding of AF pathogenesis and more personalized approaches to therapy could reduce risk of side effects and improve therapeutic efficacy. Genome wide association studies (GWAS) have revealed several candidate genes for AF including TBX5 , which encodes for a transcription factor involved in heart development. While work in animal models suggests that loss of TBX5 promotes atrial arrythmias, experimental evidence in human cells is lacking. We created an in vitro model of human atrial conduction using day 60+ induced pluripotent stem cell-derived atrial-like cardiomyocytes (iPSC-aCMs) differentiated from three established healthy iPSC lines. Over 90% atrial-like purity (out of 350+ alpha-actinin positive cardiomyocytes) could be achieved based on MLC2v-/MLC2a+ immunofluorescent staining. TBX5 knockdown via esiRNA resulted in downregulation of genes related to conduction velocity ( GJA5 and SCN5A ), consistent with an enhanced risk of AF. Single cell optical electrophysiology demonstrated slightly reduced action potential amplitude and upstroke velocity for TBX5 knockdown cells versus GFP esiRNA controls, suggesting a functional effect of SCN5A downregulation. Additionally, microelectrode array studies have revealed a trend towards slowed conduction velocity with TBX5 knockdown compared to GFP esiRNA controls (13.1±3.0 cm/s vs 17.0±3.8 cm/s respectively). By further investigating the functional effects of modulating transcription factors such as TBX5 in iPSC-aCMs, our results provide enhanced insight into the regulation of atrial conduction and identify potential AF-related pathways for therapeutic targeting.
Databáze: OpenAIRE