经多种生长因子修饰的 Sca-1+ 干细胞逆转缺血性心肌病。

Reversal of ischemic cardiomyopathy with Sca-1+ stem cells modified with multiple growth factors.

机构信息

Department of Physiology and Cell Biology, The Ohio State University, Columbus, Ohio, United States of America.

Department of Pharmacology, University of Illinois at Chicago, Chicago, Illinois, United States of America.

出版信息

PLoS One. 2014 Apr 4;9(4):e93645. doi: 10.1371/journal.pone.0093645. eCollection 2014.

DOI:10.1371/journal.pone.0093645

PMID:24705272

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3976296/

Abstract

BACKGROUND

We hypothesized that bone marrow derived Sca-1+ stem cells (BM Sca-1+) transduced with multiple therapeutic cytokines with diverse effects will induce faster angiomyogenic differentiation in the infarcted myocardium.

METHODS AND RESULTS

BM Sca-1+ were purified from transgenic male mice expressing GFP. Plasmids encoding for select quartet of growth factors, i.e., human IGF-1, VEGF, SDF-1α and HGF were prepared and used for genetic modification of Sca-1+ cells (GFSca-1+). Scramble transfected cells (ScSca-1+) were used as a control. RT-PCR and western blotting showed significantly higher expression of the growth factors in GFSca-1+. Besides the quartet of the therapeutic growth factors, PCR based growth factor array showed upregulation of multiple angiogenic and prosurvival factors such as Ang-1, Ang-2, MMP9, Cx43, BMP2, BMP5, FGF2, and NGF in GFSca-1+ (p<0.01 vs ScSca-1+). LDH and TUNEL assays showed enhanced survival of GFSca-1+ under lethal anoxia (p<0.01 vs ScSca-1+). MTS assay showed significant increased cell proliferation in GFSca-1+ (p<0.05 vs ScSca-1+). For in vivo study, female mice were grouped to receive the intramyocardial injection of 15 μl DMEM without cells (group-1) or containing 2.5 × 10(5) ScSca-1+ (group-2) or GFSca-1+ (group-3) immediately after coronary artery ligation. As indicated by Sry gene, a higher survival of GFSca-1+ in group-3 on day 4 (2.3 fold higher vs group-2) was observed with massive mobilization of stem and progenitor cells (cKit+, Mdr1+, Cxcr4+ cells). Heart tissue sections immunostained for actinin and Cx43 at 4 weeks post engraftment showed extensive myofiber formation and expression of gap junctions. Immunostaining for vWF showed increased blood vessel density in both peri-infarct and infarct regions in group-3. Infarct size was attenuated and the global heart function was improved in group-3 as compared to group-2.

CONCLUSIONS

Administration of BM Sca-1+ transduced with multiple genes is a novel approach to treat infarcted heart for its regeneration.

摘要

背景

我们假设，骨髓来源的 Sca-1+干细胞（BM Sca-1+）转导多种具有不同作用的治疗性细胞因子，将在梗死心肌中更快地诱导血管生成。

方法和结果

从表达 GFP 的转基因雄性小鼠中纯化 BM Sca-1+。制备编码选择的 quartet 生长因子的质粒，即人 IGF-1、VEGF、SDF-1α 和 HGF，用于 Sca-1+细胞（GFSca-1+）的遗传修饰。转染 scramble 的细胞（ScSca-1+）用作对照。RT-PCR 和 Western blot 显示 GFSca-1+中生长因子的表达显著增加。除了 quartet 治疗性生长因子外，PCR 基生长因子阵列显示多种血管生成和生存促进因子的上调，如 Ang-1、Ang-2、MMP9、Cx43、BMP2、BMP5、FGF2 和 NGF（p<0.01 与 ScSca-1+相比）。LDH 和 TUNEL 测定显示 GFSca-1+在致命缺氧下的存活率提高（p<0.01 与 ScSca-1+相比）。MTS 测定显示 GFSca-1+的细胞增殖显著增加（p<0.05 与 ScSca-1+相比）。在体内研究中，将雌性小鼠分为三组，在冠状动脉结扎后立即接受 15 μl DMEM 无细胞（第 1 组）或含有 2.5 × 10(5) ScSca-1+（第 2 组）或 GFSca-1+（第 3 组）的心肌内注射。如 Sry 基因所示，第 3 组在第 4 天（与第 2 组相比增加 2.3 倍）观察到 GFSca-1+的存活率更高，伴有大量干细胞和祖细胞的动员（cKit+、Mdr1+、Cxcr4+细胞）。在移植后 4 周的心脏组织切片免疫染色显示 actin 和 Cx43 的肌纤维形成和间隙连接表达广泛。免疫染色显示 vWF 在第 3 组的梗死周边和梗死区的血管密度增加。与第 2 组相比，第 3 组的梗死面积减轻，整体心脏功能得到改善。

结论

转导多种基因的 BM Sca-1+的给药是治疗梗死心脏的一种新方法，用于其再生。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d5f8/3976296/4ce08412febc/pone.0093645.g001.jpg

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经多种生长因子修饰的 Sca-1+ 干细胞逆转缺血性心肌病。

Reversal of ischemic cardiomyopathy with Sca-1+ stem cells modified with multiple growth factors.

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法和结果

结论

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