胚胎和成年鸡心肌中电压门离子通道基因的表达。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-09 DOI:10.1016/j.ydbio.2024.08.005
E.A. Lebedeva , M.A. Gonotkov , A.A. Furman , I.O. Velegzhaninov
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引用次数: 0

摘要

心血管系统的功能对胚胎的存活至关重要。心脏收缩取决于不同类别的电压门控离子通道的顺序激活。了解这些相互作用的基本特征对于确定心肌的病理发展机制非常重要。然而,目前对于哪些离子通道参与了胚胎早期自动性的形成还没有达成共识。本研究的目的是阐明编码各种类型离子通道的基因的表达情况,这些基因参与了鸡心脏在胚胎发育不同阶段电活动的产生。我们分析了来自不同离子通道家族的 14 个基因的表达。结果表明,离子通道基因的表达谱随胚胎发育阶段的不同而变化。HCN4、CACNA1D、SCN1A、SCN5A和KCNA1基因在小管心脏阶段的表达量最高。在成体阶段,CACNA1C、KCNH6、RYR 和 SLC8A1 基因的表达转为较高。这一数据与微电极法得出的结果相关。可以认为,肾小管心脏的自动性主要是由 "膜时钟"(超极化激活电流(If)、L 型 Ca2+ 电流(ICaL)、Na+ 电流(INa)和延迟整流 K+ 电流(IKs)的慢分量)机制造成的。而在成鸟体内,产生电脉冲的机制是由 "膜时钟 "和 "Ca2+时钟 "共同决定的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Voltage-gated ion channel’s gene expression in the myocardium of embryo and adult chickens

The functioning of the cardiovascular system is critical for embryo survival. Cardiac contractions depend on the sequential activation of different classes of voltage-gated ion channels. Understanding the fundamental features of these interactions is important for identifying the mechanisms of pathologies development in the myocardium. However, at present there is no consensus on which ion channels are involved in the formation of automaticity in the early embryonic stages. The aim of this study was to elucidate the expression of genes encoding various types of ion channels that are involved in the generation of electrical activity chicken heart at different stages of ontogenesis. We analyzed the expression of 14 genes from different families of ion channels. It was revealed that the expression profiles of ion channel genes change depending on the stages of ontogenesis. The HCN4, CACNA1D, SCN1A, SCN5A, KCNA1 genes have maximum expression at the tubular heart stage. In adult, a switch occurs to the higher expression of CACNA1C, KCNH6, RYR and SLC8A1 genes. This data correlated with the results obtained by the microelectrode method. It can be assumed that the automaticity of the tubular heart is mainly due to the mechanism of the «membrane–clock» (hyperpolarization-activated current (If), Ca2+–current L–type (ICaL), Na+–current (INa) and the slow component of the delayed rectifier K+–current (IKs)). Whereas in adult birds, the mechanism for generating electrical impulses is determined by both « membrane– clock» and «Ca2+–clock».

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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