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. 2024:1441:253-268.
doi: 10.1007/978-3-031-44087-8_14.

Cardiac Development at a Single-Cell Resolution

Nicholas Wei  1 Carissa Lee  1 Lauren Duan  1 Francisco X Galdos  1 Tahmina Samad  1 Alireza Raissadati  1 William R Goodyer  2 Sean M Wu  3
Affiliations

Cardiac Development at a Single-Cell Resolution

Nicholas Wei et al. Adv Exp Med Biol. 2024.

Abstract

Mammalian cardiac development is a complex, multistage process. Though traditional lineage tracing studies have characterized the broad trajectories of cardiac progenitors, the advent and rapid optimization of single-cell RNA sequencing methods have yielded an ever-expanding toolkit for characterizing heterogeneous cell populations in the developing heart. Importantly, they have allowed for a robust profiling of the spatiotemporal transcriptomic landscape of the human and mouse heart, revealing the diversity of cardiac cells-myocyte and non-myocyte-over the course of development. These studies have yielded insights into novel cardiac progenitor populations, chamber-specific developmental signatures, the gene regulatory networks governing cardiac development, and, thus, the etiologies of congenital heart diseases. Furthermore, single-cell RNA sequencing has allowed for the exquisite characterization of distinct cardiac populations such as the hard-to-capture cardiac conduction system and the intracardiac immune population. Therefore, single-cell profiling has also resulted in new insights into the regulation of cardiac regeneration and injury repair. Single-cell multiomics approaches combining transcriptomics, genomics, and epigenomics may uncover an even more comprehensive atlas of human cardiac biology. Single-cell analyses of the developing and adult mammalian heart offer an unprecedented look into the fundamental mechanisms of cardiac development and the complex diseases that may arise from it.

Keywords: Bioinformatics; Chamber morphogenesis; Heart development; Myocardial trabeculation; Single-cell RNA sequencing.

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