Abstract
Introduction: The voltage-gated proton channel Hv1 is a member of the voltage-gated ion channel family. Hv1 channel controls acid extrusion and regulates pH homeostasis in various cell types. Recent evidence showed that the Hv1 were expressed in the heart. Hypothesis: We propose the Hv1 channel is associated with cardiac function. Methods: To investigate the role of Hv1 in cardiac myocytes, we performed a transcriptomic analysis of wild-type (WT) and Hv1-/- mouse hearts. Results: Hv1 null hearts exhibited a differential transcriptome profile compared with wild-type hearts. The RNA-seq data indicating impaired pH homeostasis in Hv1 null hearts were the downregulated NADPH oxidoreductases (NOXs) and decreased expression of Cl-/HCO3- exchanger. Additionally, Hv1 null hearts exhibited differential expression of cardiac ion channels, suggesting a potential role of Hv1 in cardiac electrophysiological remodeling. Conclusions: The data indicated that Hv1 was involved in cardiac pH homeostasis and showed that Hv1 was a regulator of gene transcriptional networks controlling NOX signaling and CO2 homeostasis in the heart. The study highlights the importance of Hv1 in cardiac function and may present a new target associated with heart diseases.
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