Local calcium dynamics and signalling in cardiomyocytes.

IF 44.2 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Nature Reviews Cardiology Pub Date : 2026-04-22 DOI:10.1038/s41569-026-01286-8

Jean-Pierre Benitah,Laetitia Pereira,Romain Perrier,Jean-Jacques Mercadier,Jessica Sabourin,Ana María Gómez

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引用次数: 0

Abstract

Calcium (Ca²⁺) signalling is essential for cardiomyocyte function, regulating excitation-contraction coupling and excitation-transcription coupling, and contributing to mitochondrial energy production (excitation-bioenergetics coupling). In this Review, we explore the role of Ca²⁺ microdomains, which compartmentalize Ca²⁺ signalling to ensure efficient cardiac function. We first describe the organization of these microdomains, followed by their functional importance, pathological alterations in heart failure and potential therapeutic strategies targeting key Ca²⁺-signalling mechanisms. The dyad, a crucial excitation-contraction coupling microdomain, brings L-type Ca²⁺ channels and ryanodine receptor Ca²⁺-release channels (RYR2) into close proximity, facilitating Ca²⁺-induced Ca²⁺ release for cardiomyocyte contraction. In heart failure, dyadic remodelling and altered Ca²⁺ handling contribute to cardiac contractile dysfunction and arrhythmogenesis. Emerging research shows that dyads are dynamic, rapidly adapting to modulators such as β-adrenergic signalling, offering new therapeutic targets. Under stress conditions, dyadic proteins can translocate to the nucleus to regulate gene expression. In addition to excitation-contraction coupling, which operates on a beat-to-beat basis, Ca²⁺ has additional roles in cardiomyocytes. Nuclear Ca²⁺ regulates the expression of genes related to hypertrophy, including those encoding Ca²⁺ channels and transporters. Disruptions in these microdomains drive pathological remodelling in heart failure and arrhythmias. Understanding Ca²⁺ microdomains is crucial for developing targeted interventions to restore cardiac function while minimizing pro-arrhythmic risks.

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心肌细胞局部钙动力学和信号传导。

钙（Ca 2 +）信号传导对于心肌细胞功能至关重要，可以调节兴奋-收缩耦合和兴奋-转录耦合，并有助于线粒体能量的产生（兴奋-生物能量耦合）。在这篇综述中，我们探讨了Ca 2 +微结构域的作用，该微结构域划分了Ca 2 +信号传导以确保有效的心脏功能。我们首先描述了这些微结构域的组织，然后描述了它们的功能重要性、心力衰竭的病理改变以及针对关键Ca 2 +信号传导机制的潜在治疗策略。dyad是一个至关重要的兴奋-收缩耦合微域，它将l型Ca 2 +通道和ryanodine受体Ca 2 +释放通道（RYR2）靠近，促进Ca 2 +诱导的Ca 2 +释放用于心肌细胞收缩。在心力衰竭中，二元重构和改变的ca2 +处理有助于心脏收缩功能障碍和心律失常。新兴研究表明，二联体是动态的，能够迅速适应β-肾上腺素能信号等调节剂，提供了新的治疗靶点。在胁迫条件下，二进蛋白可以转运到细胞核中调控基因表达。除了以心跳为基础的兴奋-收缩耦合外，Ca 2 +在心肌细胞中还具有额外的作用。核Ca 2 +调节与肥大相关的基因的表达，包括编码Ca 2 +通道和转运体的基因。这些微结构域的破坏驱动心衰和心律失常的病理重塑。了解Ca 2 +微结构域对于开发有针对性的干预措施以恢复心功能，同时最大限度地降低致心律失常的风险至关重要。

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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来源期刊

Nature Reviews Cardiology 医学-心血管系统

CiteScore

53.10

自引率

0.60%

发文量

143

审稿时长

6-12 weeks

期刊介绍： Nature Reviews Cardiology aims to be the go-to source for reviews and commentaries in the scientific and clinical communities it serves. Focused on providing authoritative and accessible articles enriched with clear figures and tables, the journal strives to offer unparalleled service to authors, referees, and readers, maximizing the usefulness and impact of each publication. It covers a broad range of content types, including Research Highlights, Comments, News & Views, Reviews, Consensus Statements, and Perspectives, catering to practising cardiologists and cardiovascular research scientists. Authored by renowned clinicians, academics, and researchers, the content targets readers in the biological and medical sciences, ensuring accessibility across various disciplines. In-depth Reviews offer up-to-date information, while Consensus Statements provide evidence-based recommendations. Perspectives and News & Views present topical discussions and opinions, and the Research Highlights section filters primary research from cardiovascular and general medical journals. As part of the Nature Reviews portfolio, Nature Reviews Cardiology maintains high standards and a wide reach.