Johns Hopkins University School of Medicine, 733 North Broadway, Baltimore, MD, 21205, USA.
J Physiol. 2020 Jul;598(14):2941-2956. doi: 10.1113/JP276754. Epub 2019 Jan 15.
A primary limitation in the use of pluripotent stem cell-derived cardiomyocytes (PSC-CMs) for both patient health and scientific investigation is the failure of these cells to achieve full functional maturity. In vivo, cardiomyocytes undergo numerous adaptive structural, functional and metabolic changes during maturation. By contrast, PSC-CMs fail to fully undergo these developmental processes, instead remaining arrested at an embryonic stage of maturation. There is thus a significant need to understand the biological processes underlying proper CM maturation in vivo. Here, we discuss what is known regarding the initiation and coordination of CM maturation. We postulate that there is a critical perinatal window, ranging from embryonic day 18.5 to postnatal day 14 in mice, in which the maturation process is exquisitely sensitive to perturbation. While the initiation mechanisms of this process are unknown, it is increasingly clear that maturation proceeds through interconnected regulatory circuits that feed into one another to coordinate concomitant structural, functional and metabolic CM maturation. We highlight PGC1α, SRF and the MEF2 family as transcription factors that may potentially mediate this cross-talk. We lastly discuss several emerging technologies that will facilitate future studies into the mechanisms of CM maturation. Further study will not only produce a better understanding of its key processes, but provide practical insights into developing a robust strategy to produce mature PSC-CMs.
多能干细胞衍生的心肌细胞(PSC-CMs)在用于患者健康和科学研究方面存在一个主要的局限性,即这些细胞无法实现完全的功能成熟。在体内,心肌细胞在成熟过程中经历了许多适应性的结构、功能和代谢变化。相比之下,PSC-CMs 无法完全经历这些发育过程,而是仍然停留在胚胎成熟阶段。因此,人们非常需要了解体内 CM 成熟的生物学过程。在这里,我们讨论了已知的关于 CM 成熟启动和协调的相关内容。我们假设在小鼠中,从胚胎第 18.5 天到出生后第 14 天存在一个关键的围产期窗口,在此期间,成熟过程对干扰非常敏感。虽然这个过程的启动机制尚不清楚,但越来越明显的是,成熟是通过相互关联的调节回路进行的,这些回路相互作用,协调同时发生的结构、功能和代谢 CM 成熟。我们强调 PGC1α、SRF 和 MEF2 家族作为转录因子,可能介导这种串扰。我们最后讨论了几种新兴技术,这些技术将有助于未来对 CM 成熟机制的研究。进一步的研究不仅将产生对其关键过程的更好理解,而且还将为开发生产成熟的 PSC-CMs 的稳健策略提供实际的见解。