Inhibition of Late Sodium Current Via PI3K/Akt Signaling Prevents Cellular Remodeling in Tachypacing-induced HL-1 Atrial Myocytes

Overview

Journal Pflugers Arch

Specialty Physiology

Date 2022 Oct 23

PMID 36274100

Authors

Tae Hee Ko

Daun Jeong

Byeongil Yu

Ji Eun Song

Qui Anh Le

Sun-Hee Woo

Jong-Il Choi

Affiliations

Soon will be listed here.

Abstract

An aberrant late sodium current (I) caused by a mutation in the cardiac sodium channel (Na1.5) has emerged as a contributor to electrical remodeling that causes susceptibility to atrial fibrillation (AF). Although downregulation of phosphoinositide 3-kinase (PI3K)/Akt signaling is associated with AF, the molecular mechanisms underlying the negative regulation of I in AF remain unclear, and potential therapeutic approaches are needed. In this work, we constructed a tachypacing-induced cellular model of AF by exposing HL-1 myocytes to rapid electrical stimulation (1.5 V/cm, 4 ms, 10 Hz) for 6 h. Then, we gathered data using confocal Ca imaging, immunofluorescence, patch-clamp recordings, and immunoblots. The tachypacing cells displayed irregular Ca release, delayed afterdepolarization, prolonged action potential duration, and reduced PI3K/Akt signaling compared with controls. Those detrimental effects were related to increased I and were significantly mediated by treatment with the I blocker ranolazine. Furthermore, decreased PI3K/Akt signaling via PI3K inhibition increased I and subsequent aberrant myocyte excitability, which were abolished by I inhibition, suggesting that PI3K/Akt signaling is responsible for regulating pathogenic I. These results indicate that PI3K/Akt signaling is critical for regulating I and electrical remodeling, supporting the use of PI3K/Akt-mediated I as a therapeutic target for AF.

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