周期性拉伸通过核机械转导诱导人诱导多能干细胞衍生的心肌细胞成熟。

Cyclic Stretching Induces Maturation of Human-Induced Pluripotent Stem Cell-Derived Cardiomyocytes through Nuclear-Mechanotransduction.

机构信息

Department of Biomedical Sciences, College of Medicine, Korea University, Seoul, 02841, Republic of Korea.

出版信息

Tissue Eng Regen Med. 2022 Aug;19(4):781-792. doi: 10.1007/s13770-021-00427-z. Epub 2022 Mar 8.

DOI:10.1007/s13770-021-00427-z

PMID:35258794

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9294081/

Abstract

BACKGROUND

During cardiogenesis, cardiac cells receive various stimuli, such as biomechanical and chemical cues, from the surrounding microenvironment, and these signals induce the maturation of heart cells. Mechanical force, especially tensile force in the heart, is one of the key stimuli that induce cardiomyocyte (CM) maturation through mechanotransduction, a process through which physical cues are transformed into biological responses. However, the effects and mechanisms of tensile force on cell maturation are poorly studied.

METHODS

In this study, we developed a cyclic stretch system that mimics the mechanical environment of the heart by loading tensile force to human-induced pluripotent stem cell (hiPSC)-derived CMs. hiPSC-CMs cultured with the cyclic stretch system analyzed morphological change, immunofluorescent staining, expression of maturation markers in mRNA, and beating properties compared to static cultures.

RESULTS

hiPSC-CMs cultured with the cyclic stretch system showed increased cell alignment, sarcomere length and expression of maturation markers in mRNA, such as TNNI3, MYL2 and TTN, compared to static cultures. Especially, the expression of genes related to nuclear mechanotransduction, such as Yap1, Lamin A/C, plectin, and desmin, was increased in the cyclically stretched hiPSC-CMs. Furthermore, the volume of the nucleus was increased by as much as 120% in the cyclic stretch group.

CONCLUSION

These results revealed that nuclear mechanotransduction induced by tensile force is involved in CM maturation. Together, these findings provide novel evidence suggesting that nuclear mechanotransduction induced by tensile force is involved in the regulation of cardiac maturation.

摘要

背景

在心脏发生过程中，心脏细胞会受到来自周围微环境的各种刺激，如生物力学和化学信号，这些信号诱导心脏细胞成熟。机械力，尤其是心脏中的张力，是通过机械转导诱导心肌细胞（CM）成熟的关键刺激之一，这个过程将物理信号转化为生物反应。然而，张力对细胞成熟的影响和机制还研究得很少。

方法

在这项研究中，我们开发了一个循环拉伸系统，通过向人诱导多能干细胞（hiPSC）衍生的 CM 施加张力来模拟心脏的机械环境。与静态培养相比，用循环拉伸系统培养的 hiPSC-CM 分析了形态变化、免疫荧光染色、mRNA 中成熟标志物的表达和搏动特性。

结果

与静态培养相比，用循环拉伸系统培养的 hiPSC-CM 表现出细胞排列增加、肌节长度增加和 mRNA 中成熟标志物的表达增加，如 TNNI3、MYL2 和 TTN。特别是，与核机械转导相关的基因，如 Yap1、Lamin A/C、plectin 和 desmin 的表达在循环拉伸的 hiPSC-CM 中增加。此外，细胞核的体积在循环拉伸组中增加了 120%。

结论

这些结果表明，张力诱导的核机械转导参与了 CM 的成熟。总之，这些发现为张力诱导的核机械转导参与心脏成熟的调节提供了新的证据。

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