基因工程心脏干细胞球体形成对缺血性心肌细胞的心脏保护作用。

Cardioprotective effects of genetically engineered cardiac stem cells by spheroid formation on ischemic cardiomyocytes.

机构信息

Department of Cardiology, Cardiovascular Center, Korea University College of Medicine, Seoul, Republic of Korea.

出版信息

Mol Med. 2020 Jan 31;26(1):15. doi: 10.1186/s10020-019-0128-8.

DOI:10.1186/s10020-019-0128-8

PMID:32005100

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6995053/

Abstract

BACKGROUND

Sca-1+ cardiac stem cells and their limited proliferative potential were major limiting factors for use in various studies.

METHODS

Therefore, the effects of sphere genetically engineered cardiac stem cells (S-GECS) inserted with telomerase reverse transcriptase (TERT) were investigated to examine cardiomyocyte survival under hypoxic conditions. GECS was obtained from hTERT-immortalized Sca-1+ cardiac stem cell (CSC) lines, and S-GECS were generated using poly-HEMA.

RESULTS

The optimal conditions for S-GECS was determined to be 1052 GECS cells/mm and a 48 h culture period to produce spheroids. Compared to adherent-GECS (A-GECS) and S-GECS showed significantly higher mRNA expression of SDF-1α and CXCR4. S-GECS conditioned medium (CM) significantly reduced the proportion of early and late apoptotic cardiomyoblasts during CoCl-induced hypoxic injury; however, gene silencing via CXCR4 siRNA deteriorated the protective effects of S-GECS against hypoxic injury. As downstream pathways of SDF-1α/CXCR4, the Erk and Akt signaling pathways were stimulated in the presence of S-GECS CM. S-GECS transplantation into a rat acute myocardial infarction model improved cardiac function and reduced the fibrotic area. These cardioprotective effects were confirmed to be related with the SDF-1α/CXCR4 pathway.

CONCLUSIONS

Our findings suggest that paracrine factors secreted from transplanted cells may protect host cardiomyoblasts in the infarcted myocardium, contributing to beneficial left ventricle (LV) remodeling after acute myocardial infarction (AMI).

摘要

背景

Sca-1+ 心脏干细胞及其有限的增殖潜能是各种研究中应用的主要限制因素。

方法

因此，研究了插入端粒酶逆转录酶 (TERT) 的球体基因工程心脏干细胞 (S-GECS) 对缺氧条件下心肌细胞存活的影响。GECS 从 hTERT 永生化 Sca-1+ 心脏干细胞 (CSC) 系获得，S-GECS 采用聚-HEMA 生成。

结果

确定 S-GECS 的最佳条件为 1052 个 GECS 细胞/mm 和 48 小时培养期以产生球体。与贴壁-GECS (A-GECS) 相比，S-GECS 的 SDF-1α 和 CXCR4 的 mRNA 表达明显更高。S-GECS 条件培养基 (CM) 显著降低了 CoCl 诱导缺氧损伤期间早期和晚期凋亡心肌细胞的比例；然而，通过 CXCR4 siRNA 进行基因沉默会恶化 S-GECS 对缺氧损伤的保护作用。作为 SDF-1α/CXCR4 的下游途径，存在 S-GECS CM 时刺激了 Erk 和 Akt 信号通路。将 S-GECS 移植到大鼠急性心肌梗死模型中可改善心功能并减少纤维化面积。这些心脏保护作用被证实与 SDF-1α/CXCR4 途径有关。

结论

我们的研究结果表明，移植细胞分泌的旁分泌因子可能保护梗死心肌中的宿主心肌细胞，有助于急性心肌梗死 (AMI) 后有益的左心室 (LV) 重塑。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0830/6995053/9dba1eeb89b2/10020_2019_128_Fig1_HTML.jpg

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基因工程心脏干细胞球体形成对缺血性心肌细胞的心脏保护作用。

Cardioprotective effects of genetically engineered cardiac stem cells by spheroid formation on ischemic cardiomyocytes.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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