生物
心脏发育
胚胎干细胞
计算生物学
基因
遗传学
作者
Clara Schmidt,Alison Deyett,Tobias Ilmer,Simon Haendeler,Aranxa Torres Caballero,Maria Novatchkova,Michael A. Netzer,Lavinia Ceci Ginistrelli,Estela Mancheño Juncosa,T. K. Bhattacharya,Amra Mujadzic,Lokesh G. Pimpale,Stefan M. Jahnel,Martina Cirigliano,Daniel Reumann,Katherina Tavernini,Nóra Pápai,Steffen Hering,Pablo Hofbauer,Sasha Mendjan
出处
期刊:Cell
[Elsevier]
日期:2023-11-28
卷期号:186 (25): 5587-5605.e27
被引量:48
标识
DOI:10.1016/j.cell.2023.10.030
摘要
The number one cause of human fetal death are defects in heart development. Because the human embryonic heart is inaccessible and the impacts of mutations, drugs, and environmental factors on the specialized functions of different heart compartments are not captured by in vitro models, determining the underlying causes is difficult. Here, we established a human cardioid platform that recapitulates the development of all major embryonic heart compartments, including right and left ventricles, atria, outflow tract, and atrioventricular canal. By leveraging 2D and 3D differentiation, we efficiently generated progenitor subsets with distinct first, anterior, and posterior second heart field identities. This advance enabled the reproducible generation of cardioids with compartment-specific in vivo-like gene expression profiles, morphologies, and functions. We used this platform to unravel the ontogeny of signal and contraction propagation between interacting heart chambers and dissect how mutations, teratogens, and drugs cause compartment-specific defects in the developing human heart.
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