An increase in intercellular crosstalk and electrotonic coupling between cardiomyocytes and nonmyocytes reshapes the electrical conduction in the metabolic heart characterized by short QT intervals in ECGs
Deniz Billur, Yusuf Olgar, Aysegul Durak, Ayse Hande Yozgat, Simge Unay, Erkan Tuncay, Belma Turan- Cell Biology
- Clinical Biochemistry
- General Medicine
- Biochemistry
Abstract
Cardiac conduction abnormalities are disorders in metabolic syndrome (MetS), however, their mechanisms are unknown. Although ventricular arrhythmia reflects the changes in QT‐interval of electrocardiograms associated with the changes in cardiomyocyte action potential durations (APDs), recent studies emphasize role of intercellular crosstalk between cardiomyocytes and nonmyocytes via passive (electrotonic)‐conduction. Therefore, considering the possible increase in intercellular interactions of nonmyocytes with cardiomyocytes, we hypothesized an early‐cardiac‐remodeling characterized by short QT‐interval via contributions and modulations of changes by nonmyocytes to the ventricular APs in an early‐stage MetS hearts. Following the feeding of 8‐week‐old rats with a high‐sucrose diet (32%; MetS rats) and validation of insulin resistance, there was a significant increase in heart rate and changes in the electrical characteristics of the hearts, especially a shortening in action potential (AP) duration of the papillary muscles. The patch‐clamp analysis of ventricular cardiomyocytes showed an increase in the Na+‐channel currents while there were decreases in