Cardiomyocyte Deletion of Bmal1 Exacerbates QT- and RR-Interval Prolongation in Scn5a+/ΔKPQ Mice

Circadian rhythms are generated by cell autonomous circadian clocks that perform a ubiquitous cellular time-keeping function and cell type-specific functions important for normal physiology. Studies show inducing the deletion of the core circadian clock transcription factor Bmal1 in adult mouse cardiomyocytes disrupts cardiac circadian clock function, cardiac ion channel expression, slows heart rate, and prolongs the QT-interval at slow heart rates. This study determined how inducing the deletion of Bmal1 in adult cardiomyocytes impacted the in vivo electrophysiological phenotype of a knock-in mouse model for the arrhythmogenic long QT syndrome (Scn5a(+/Delta KPQ)). Electrocardiographic telemetry showed inducing the deletion of Bmal1 in the cardiomyocytes of mice with or without the Delta KPQ-Scn5a mutation increased the QT-interval at RR-intervals that were >= 130 ms. Inducing the deletion of Bmal1 in the cardiomyocytes of mice with or without the Delta KPQ-Scn5a mutation also increased the day/night rhythm-adjusted mean in the RR-interval, but it did not change the period, phase or amplitude. Compared to mice without the Delta KPQ-Scn5a mutation, mice with the Delta KPQ-Scn5a mutation had reduced heart rate variability (HRV) during the peak of the day/night rhythm in the RR-interval. Inducing the deletion of Bmal1 in cardiomyocytes did not affect HRV in mice without the Delta KPQ-Scn5a mutation, but it did increase HRV in mice with the Delta KPQ-Scn5a mutation. The data demonstrate that deleting Bmal1 in cardiomyocytes exacerbates QT- and RR-interval prolongation in mice with the Delta KPQ-Scn5a mutation.

Automated summary

Studies have shown that inducing the deletion of Bmal1 in adult cardiomyocytes exacerbates cardiac arrhythmias, such as prolonging QT and RR intervals and altering heart rate variability.