肝细胞生长因子基因工程化骨骼肌成肌细胞移植改善大鼠心肌缺血模型中的梗死恢复情况。

Transplantation of HGF gene-engineered skeletal myoblasts improve infarction recovery in a rat myocardial ischemia model.

作者信息

Rong Shu-Ling, Wang Xiao-Lin, Zhang Cui-Ying, Song Zhuo-Hui, Cui Lu-Hua, He Xiao-Feng, Li Xu-Jiong, Du Hui-Jin, Li Bao

机构信息

Department of Cardiology, Heping Hospital and Institute of cardiovascular disease, Changzhi Medical College, Changzhi, China.

Department of Cardiology, The Second Hospital of Shanxi Medical University, Taiyuan, Shanxi, China.

出版信息

PLoS One. 2017 May 1;12(5):e0175807. doi: 10.1371/journal.pone.0175807. eCollection 2017.

DOI:10.1371/journal.pone.0175807

PMID:28459804

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5411067/

Abstract

BACKGROUND

Skeletal myoblast transplantation seems a promising approach for the repair of myocardial infarction (MI). However, the low engraftment efficacy and impaired angiogenic ability limit the clinical efficiency of the myoblasts. Gene engineering with angiogenic growth factors promotes angiogenesis and enhances engraftment of transplanted skeletal myoblasts, leading to improved infarction recovery in myocardial ischemia. The present study evaluated the therapeutic effects of hepatocyte growth factor (HGF) gene-engineered skeletal myoblasts on tissue regeneration and restoration of heart function in a rat MI model.

METHODS AND RESULTS

The skeletal myoblasts were isolated, expanded, and transduced with adenovirus carrying the HGF gene (Ad-HGF). Male SD rats underwent ligation of the left anterior descending coronary artery. After 2 weeks, the surviving rats were randomized into four groups and treated with skeletal myoblasts by direct injection into the myocardium. The survival and engraftment of skeletal myoblasts were determined by real-time PCR and in situ hybridization. The cardiac function with hemodynamic index and left ventricular architecture were monitored; The adenovirus-mediated-HGF gene transfection increases the HGF expression and promotes the proliferation of skeletal myoblasts in vitro. Transplantation of HGF-engineered skeletal myoblasts results in reduced infarct size and collagen deposition, increased vessel density, and improved cardiac function in a rat MI model. HGF gene modification also increases the myocardial levels of HGF, VEGF, and Bcl-2 and enhances the survival and engraftment of skeletal myoblasts.

CONCLUSIONS

HGF engineering improves the regenerative effect of skeletal myoblasts on MI by enhancing their survival and engraftment ability.

摘要

背景

骨骼肌成肌细胞移植似乎是修复心肌梗死（MI）的一种有前景的方法。然而，低植入效率和受损的血管生成能力限制了成肌细胞的临床应用效果。利用血管生成生长因子进行基因工程可促进血管生成并增强移植的骨骼肌成肌细胞的植入，从而改善心肌缺血时的梗死恢复情况。本研究评估了肝细胞生长因子（HGF）基因工程化的骨骼肌成肌细胞对大鼠心肌梗死模型中组织再生和心脏功能恢复的治疗效果。

方法与结果

分离、扩增骨骼肌成肌细胞，并用携带HGF基因的腺病毒（Ad-HGF）进行转导。雄性SD大鼠接受左冠状动脉前降支结扎。2周后，将存活的大鼠随机分为四组，并通过直接注射到心肌中来用骨骼肌成肌细胞进行治疗。通过实时PCR和原位杂交确定骨骼肌成肌细胞的存活和植入情况。监测心脏功能、血流动力学指标和左心室结构；腺病毒介导的HGF基因转染增加了HGF表达并促进了体外骨骼肌成肌细胞的增殖。在大鼠心肌梗死模型中，移植HGF基因工程化的骨骼肌成肌细胞可减少梗死面积和胶原沉积，增加血管密度，并改善心脏功能。HGF基因修饰还增加了心肌中HGF、VEGF和Bcl-2的水平，并增强了骨骼肌成肌细胞的存活和植入。

结论

HGF基因工程通过增强骨骼肌成肌细胞的存活和植入能力，改善了其对心肌梗死的再生作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/74d7/5411067/d6b77975dd0f/pone.0175807.g001.jpg

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肝细胞生长因子基因工程化骨骼肌成肌细胞移植改善大鼠心肌缺血模型中的梗死恢复情况。

Transplantation of HGF gene-engineered skeletal myoblasts improve infarction recovery in a rat myocardial ischemia model.

作者信息

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出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法与结果

结论

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