Bone-Derived Stem Cells Repair the Heart After Myocardial Infarction Through Transdifferentiation and Paracrine Signaling Mechanisms

旁分泌信号 干细胞 心功能曲线 血管生成 干细胞疗法 转分化 医学 心肌细胞 心肌梗塞 新生血管 内科学 细胞生物学 心力衰竭 生物 受体
作者
Jason M. Duran,Catherine A. Makarewich,Thomas G. Sharp,Timothy Starosta,Fang Zhu,Nicholas E. Hoffman,Yumi Chiba,Muniswamy Madesh,Remus M. Berretta,Hajime Kubo,Steven R. Houser
出处
期刊:Circulation Research [Lippincott Williams & Wilkins]
卷期号:113 (5): 539-552 被引量:145
标识
DOI:10.1161/circresaha.113.301202
摘要

Rationale: Autologous bone marrow–derived or cardiac-derived stem cell therapy for heart disease has demonstrated safety and efficacy in clinical trials, but functional improvements have been limited. Finding the optimal stem cell type best suited for cardiac regeneration is the key toward improving clinical outcomes. Objective: To determine the mechanism by which novel bone-derived stem cells support the injured heart. Methods and Results: Cortical bone–derived stem cells (CBSCs) and cardiac-derived stem cells were isolated from enhanced green fluorescent protein (EGFP+) transgenic mice and were shown to express c-kit and Sca-1 as well as 8 paracrine factors involved in cardioprotection, angiogenesis, and stem cell function. Wild-type C57BL/6 mice underwent sham operation (n=21) or myocardial infarction with injection of CBSCs (n=67), cardiac-derived stem cells (n=36), or saline (n=60). Cardiac function was monitored using echocardiography. Only 2/8 paracrine factors were detected in EGFP+ CBSCs in vivo (basic fibroblast growth factor and vascular endothelial growth factor), and this expression was associated with increased neovascularization of the infarct border zone. CBSC therapy improved survival, cardiac function, regional strain, attenuated remodeling, and decreased infarct size relative to cardiac-derived stem cells– or saline-treated myocardial infarction controls. By 6 weeks, EGFP+ cardiomyocytes, vascular smooth muscle, and endothelial cells could be identified in CBSC-treated, but not in cardiac-derived stem cells–treated, animals. EGFP+ CBSC-derived isolated myocytes were smaller and more frequently mononucleated, but were functionally indistinguishable from EGFP− myocytes. Conclusions: CBSCs improve survival, cardiac function, and attenuate remodeling through the following 2 mechanisms: (1) secretion of proangiogenic factors that stimulate endogenous neovascularization, and (2) differentiation into functional adult myocytes and vascular cells.

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