诱导多能干细胞
Wnt信号通路
心室
干细胞
生物
心肌细胞
细胞生物学
胚胎干细胞
神经科学
内科学
医学
遗传学
信号转导
基因
作者
Nicola Dark,Marie‐Victoire Cosson,Lorenza I. Tsansizi,Thomas J. Owen,Elisa Ferraro,Alice J. Francis,Selina Tsai,Camille Bouissou,Anne Weston,Lucy Collinson,Najah Abi‐Gerges,Paul E. Miller,Kenneth T. MacLeod,Elisabeth Ehler,Richard Mitter,Siân E. Harding,James C. Smith,Andreia S. Bernardo
标识
DOI:10.1016/j.crmeth.2023.100456
摘要
Decreased left ventricle (LV) function caused by genetic mutations or injury often leads to debilitating and fatal cardiovascular disease. LV cardiomyocytes are, therefore, a potentially valuable therapeutical target. Human pluripotent stem cell-derived cardiomyocytes (hPSC-CMs) are neither homogeneous nor functionally mature, which reduces their utility. Here, we exploit cardiac development knowledge to instruct differentiation of hPSCs specifically toward LV cardiomyocytes. Correct mesoderm patterning and retinoic acid pathway blocking are essential to generate near-homogenous LV-specific hPSC-CMs (hPSC-LV-CMs). These cells transit via first heart field progenitors and display typical ventricular action potentials. Importantly, hPSC-LV-CMs exhibit increased metabolism, reduced proliferation, and improved cytoarchitecture and functional maturity compared with age-matched cardiomyocytes generated using the standard WNT-ON/WNT-OFF protocol. Similarly, engineered heart tissues made from hPSC-LV-CMs are better organized, produce higher force, and beat more slowly but can be paced to physiological levels. Together, we show that functionally matured hPSC-LV-CMs can be obtained rapidly without exposure to current maturation regimes.
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