MicroRNA-365 regulates human cardiac action potential duration

Author:

Esfandyari DenaORCID,Idrissou Bio Maria GhéoORCID,Hennis KonstantinORCID,Avramopoulos PetrosORCID,Dueck AnneORCID,El-Battrawy Ibrahim,Grüter Laurenz,Meier Melanie Annemarie,Näger Anna ChristinaORCID,Ramanujam DeepakORCID,Dorn Tatjana,Meitinger ThomasORCID,Hagl Christian,Milting Hendrik,Borggrefe Martin,Fenske StefanieORCID,Biel MartinORCID,Dendorfer AndreasORCID,Sassi Yassine,Moretti AlessandraORCID,Engelhardt StefanORCID

Abstract

AbstractAbnormalities of ventricular action potential cause malignant cardiac arrhythmias and sudden cardiac death. Here, we aim to identify microRNAs that regulate the human cardiac action potential and ask whether their manipulation allows for therapeutic modulation of action potential abnormalities. Quantitative analysis of the microRNA targetomes in human cardiac myocytes identifies miR-365 as a primary microRNA to regulate repolarizing ion channels. Action potential recordings in patient-specific induced pluripotent stem cell-derived cardiac myocytes show that elevation of miR-365 significantly prolongs action potential duration in myocytes derived from a Short-QT syndrome patient, whereas specific inhibition of miR-365 normalizes pathologically prolonged action potential in Long-QT syndrome myocytes. Transcriptome analyses in these cells at bulk and single-cell level corroborate the key cardiac repolarizing channels as direct targets of miR-365, together with functionally synergistic regulation of additional action potential-regulating genes by this microRNA. Whole-cell patch-clamp experiments confirm miR-365-dependent regulation of repolarizing ionic current Iks. Finally, refractory period measurements in human myocardial slices substantiate the regulatory effect of miR-365 on action potential in adult human myocardial tissue. Our results delineate miR-365 to regulate human cardiac action potential duration by targeting key factors of cardiac repolarization.

Funder

Deutsche Forschungsgemeinschaft

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary

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