使用人多能干细胞衍生的心脏类器官来构建房室传导轴模型。

Modeling the atrioventricular conduction axis using human pluripotent stem cell-derived cardiac assembloids.

机构信息

Department of Medical Biology, Amsterdam Cardiovascular Sciences, Amsterdam University Medical Centers, University of Amsterdam, Meibergdreef 9, Amsterdam 1105 AZ, the Netherlands.

Department of Experimental Cardiology, Amsterdam Cardiovascular Sciences, Amsterdam University Medical Centers, University of Amsterdam, Meibergdreef 9, Amsterdam 1105 AZ, the Netherlands.

出版信息

Cell Stem Cell. 2024 Nov 7;31(11):1667-1684.e6. doi: 10.1016/j.stem.2024.08.008. Epub 2024 Sep 10.

DOI:10.1016/j.stem.2024.08.008

PMID:39260368

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11546832/

Abstract

The atrioventricular (AV) conduction axis provides electrical continuity between the atrial and ventricular chambers. The "nodal" cardiomyocytes populating this region (AV canal in the embryo, AV node from fetal stages onward) propagate impulses slowly, ensuring sequential contraction of the chambers. Dysfunction of AV nodal tissue causes severe disturbances in rhythm and contraction, and human models that capture its salient features are limited. Here, we report an approach for the reproducible generation of AV canal cardiomyocytes (AVCMs) with in vivo-like gene expression and electrophysiological profiles. We created the so-called "assembloids" composed of atrial, AVCM, and ventricular spheroids, which effectively recapitulated unidirectional conduction and the "fast-slow-fast" activation pattern typical for the vertebrate heart. We utilized these systems to reveal intracellular calcium mishandling as the basis of LMNA-associated AV conduction block. In sum, our study introduces novel cell differentiation and tissue construction strategies to facilitate the study of complex disorders affecting heart rhythm.

摘要

房室（AV）传导轴为心房和心室腔之间提供了电连续性。该区域（胚胎中的房室管，胎儿期以后为房室结）的“结状”心肌细胞传播冲动缓慢，确保了腔室的顺序收缩。AV 结组织功能障碍会导致节律和收缩严重紊乱，并且能够捕捉其显著特征的人类模型是有限的。在这里，我们报告了一种可重现生成具有类似体内基因表达和电生理特征的房室管心肌细胞（AVCM）的方法。我们创建了所谓的“组装体”，由心房、AVCM 和心室球体组成，这些球体有效地再现了单向传导和脊椎动物心脏特有的“快-慢-快”激活模式。我们利用这些系统揭示了细胞内钙处理不当是 LMNA 相关 AV 传导阻滞的基础。总之，我们的研究引入了新的细胞分化和组织构建策略，以促进对影响心律的复杂疾病的研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/24e0/11546832/ad76611c8c8b/fx1.jpg

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使用人多能干细胞衍生的心脏类器官来构建房室传导轴模型。

Modeling the atrioventricular conduction axis using human pluripotent stem cell-derived cardiac assembloids.

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