Alteration of transmural electrophysiological gradient in a rabbit model with a RyR2 mutation

IF 2.3 3区 医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS
Garance Gérard , Francisco Alvarado , Hector Valdivia , Ana Maria Gomez Garcia , Jean-Pierre Benitah , Romain Perrier
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引用次数: 0

Abstract

Introduction

The cardiac Ca2+ release channel (RyR2) governs the release of Ca2+ from the sarcoplasmic reticulum, essential for cardiac muscle contraction. Naturally occurring mutations in RyR2 have been linked to several forms of cardiac arrhythmias (CPVT, ARVC) that require a vulnerable substrate characterized by structural or electrical abnormalities and an acute initiating event. Recently, a RyR2V2475F mutation has been identified post-mortem on a young boy whose death has been associated with arrhythmias, related to higher Ca2+ sensitivity of the mutated RyR2.

Objective

Our study aims to determine the arrhythmogenic mechanisms of the RyR2V2475F mutation by analyzing its impact on the ventricular action potential duration and Ca2+ homeostasis in a Knock-In rabbit model.

Method

Action Potentials (APs) were recorded using patch-clamp. Ca2+ sparks, SR Ca2+ load and Ca2+ transients have been analyzed using confocal microscopy. Ion channels expression was evaluated using RT-qPCR.

Results

With EGTA in the internal solution, APs of endocardial cardiomyocytes were shortened in RyR2V2475F mutants, with reduced APD20 and APD50 values compared to WT animals. This causes an inversion of the transmural repolarization gradient. The decrease of AP duration in endocardial cardiomyocytes was abolished in presence of BAPTA (a stronger Ca2+ chelator) in the internal solution. RyR2V2475F mutation did not alter K+ channel transcript levels. Ca2+ handling analysis showed a reduced diastolic Ca2+ sparks frequency, SR Ca2+ load and Ca2+ transients amplitudes.

Conclusion

These results suggest a role of altered Ca2+ handling in AP lengthening that could represent the vulnerable substrate that favors the apparition of arrhythmias.

RyR2突变兔模型中跨膜电生理梯度的改变
导言心脏 Ca2+ 释放通道(RyR2)控制着 Ca2+ 从肌浆网的释放,是心肌收缩的必要条件。RyR2 的自然突变与几种形式的心律失常(CPVT、ARVC)有关,这些心律失常需要以结构或电异常和急性起始事件为特征的脆弱基质。我们的研究旨在通过分析 RyR2V2475F 突变对 Knock-In 兔模型中心室动作电位持续时间和 Ca2+ 平衡的影响,确定 RyR2V2475F 突变的致心律失常机制。使用共聚焦显微镜分析了 Ca2+ 火花、SR Ca2+ 负荷和 Ca2+ 瞬态。RyR2V2475F突变体心内膜心肌细胞的AP缩短,与WT动物相比,APD20和APD50值降低。这导致跨壁复极化梯度倒置。心内膜心肌细胞 AP 持续时间的缩短在内部溶液中存在 BAPTA(一种较强的 Ca2+ 螯合剂)时被取消。RyR2V2475F 突变不会改变 K+ 通道转录水平。Ca2+处理分析表明,舒张期Ca2+火花频率、SR Ca2+负荷和Ca2+瞬态振幅均有所降低。
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来源期刊
Archives of Cardiovascular Diseases
Archives of Cardiovascular Diseases 医学-心血管系统
CiteScore
4.40
自引率
6.70%
发文量
87
审稿时长
34 days
期刊介绍: The Journal publishes original peer-reviewed clinical and research articles, epidemiological studies, new methodological clinical approaches, review articles and editorials. Topics covered include coronary artery and valve diseases, interventional and pediatric cardiology, cardiovascular surgery, cardiomyopathy and heart failure, arrhythmias and stimulation, cardiovascular imaging, vascular medicine and hypertension, epidemiology and risk factors, and large multicenter studies. Archives of Cardiovascular Diseases also publishes abstracts of papers presented at the annual sessions of the Journées Européennes de la Société Française de Cardiologie and the guidelines edited by the French Society of Cardiology.
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