Abstract Funding Acknowledgements Type of funding sources: Public grant(s) – National budget only. Main funding source(s): China Scholarship Council Background Connexin-43 (Cx43) plays a pivotal role in intercellular communication through gap junctions. It is instrumental in propagating electrical signals and allowing ions to flow between neighboring cardiomyocytes. This synchronized electrical activity allows the heart to work as a functional syncytium. Any disruption or malfunction of Cx43 can lead to arrhythmias and other cardiac issues. Understanding the functions and regulation of Cx43 is vital in both basic research and clinical contexts. Propafenone, a class Ic antiarrhythmic drug, has shown promise in rhythm control; however, its precise impact on cardiac cellular physiology, particularly regarding Cx43, remains incompletely understood. Purpose To investigate propafenone’s effect on Cx43 expression, physiology, and underlying mechanisms in cell systems. Methods Used cell lines include human embryonic kidney HEK293 cells transfected with Cx43; differentiated murine embryonic carcinoma EPI7 cells with an epithelioid morphology and visceral endoderm-like END2 cells, endogenously expressing high amounts of functional Cx43. Cx43 protein expression levels were determined by Western blot analysis, whereas immunofluorescence (IF) imaged by a Total Internal Reflection Fluorescence (TIRF) microscope was used to assess the subcellular localization of Cx43 proteins. Dye injections were used to gain insight into the effects of propafenone on Cx43 metabolic coupling. Results and Conclusion Full length Cx43 protein levels were increased after treatment with propafenone and IF microscopy showed an intracellular accumulation of Cx43 protein, both on ectopically and endogenously expressed Cx43. Propafenone did not alter Cx43 half-life, in contrast to the lysosomal inhibitor chloroquine. Finally, gap-junctional coupling was decreased by chronic propafenone treatment. We conclude that the class 1c antiarrhythmic drug propanone increases Cx43 protein expression, resulting in its intracellular accumulation, as a side effect.
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