脊髓损伤模型中神经元细胞特异性过表达GMCSF的神经干细胞高分泌GMCSF的抗凋亡作用
Antiapoptotic Effect of Highly Secreted GMCSF From Neuronal Cell-specific GMCSF Overexpressing Neural Stem Cells in Spinal Cord Injury Model.
作者信息
You Youngsang, Che Lihua, Lee Hye Yeong, Lee Hye-Lan, Yun Yeomin, Lee Minhyung, Oh Jinsoo, Ha Yoon
机构信息
*Department of Neurosurgery, Spine and Spinal Cord, College of Medicine, Yonsei University, Seoul, Korea†Brain Korea 21 PLUS Project for Medical Science, College of Medicine, Yonsei University, Seoul, Korea‡Department of Bioengineering, College of Engineering, Hanyang University, Seoul, Korea.
出版信息
Spine (Phila Pa 1976). 2015 Dec;40(24):E1284-91. doi: 10.1097/BRS.0000000000001080.
STUDY DESIGN
Neuronal cell-specific gene expression system and neural stem cells (NSCs) were combined for treatment of spinal cord injury (SCI).
OBJECTIVE
To verify the reproducibility of the neuronal cell-specific therapeutic gene overexpression system, we develop a neuronal cell-specific granulocyte-macrophage colony-stimulating factor expression system (NSE-GMCSF), and then examine the characteristics of GMCSF overexpression and protective effect on neural cells in vitro and vivo.
SUMMARY OF BACKGROUND DATA
The stem cell transplantation is considered a promising therapy for SCI. However, stem cell monotherapy strategy is insufficient for complete recovery after SCI. Therefore, combined treatment method based on stem cells with other therapeutic system may be effective for improving the therapeutic efficacy. In this study, we established the gene and stem cell therapy platform based on NSCs and neuronal cell-specific gene expression system.
METHODS
To examine the GMCSF expression pattern, we compared the amount of secreted GMCSF from the neuronal cell-specific GMCSF expressing NSCs with control GMCSF-expressing NSCs (respectively, NSE-GMCSF-NSCs vs. SV-GMCSF-NSCs) by ELISA in vitro and in vivo, and then verified the neuronal protective effect of these cells in vitro and vivo.
RESULTS
The results showed that NSE-GMCSF-NSCs secreted more GMCSF compared with SV-GMCSF-NSCs in normoxia, hypoxia and cytotoxic conditions. The cell viability of NSE-GMCSF-NSCs was increased depending on the amount of secreted GMCSF in cytotoxic condition. In addition, the amount of secreted GMCSF by NSE-GMCSF-NSCs transplanted into injured spinal cord was significantly higher than SV-GMCSF-NSCs. Higher amount of secreted GMCSF decreased the expression of proapoptotic protein, Bax.
CONCLUSION
In this study, we demonstrated that the neuronal cell-specific gene expression system induced overexpression of GMCSF in NSCs. These combined NSCs & gene therapy treatment protocol would be an effective therapeutic system for SCI.
LEVEL OF EVIDENCE
N/A.
研究设计
将神经元细胞特异性基因表达系统与神经干细胞(NSCs)相结合用于治疗脊髓损伤(SCI)。
目的
为验证神经元细胞特异性治疗基因过表达系统的可重复性,我们构建了神经元细胞特异性粒细胞-巨噬细胞集落刺激因子表达系统(NSE-GMCSF),然后在体外和体内检测GMCSF过表达的特征及其对神经细胞的保护作用。
背景资料总结
干细胞移植被认为是治疗SCI的一种有前景的疗法。然而,干细胞单一疗法策略对于SCI后的完全恢复是不够的。因此,基于干细胞与其他治疗系统的联合治疗方法可能对提高治疗效果有效。在本研究中,我们建立了基于NSCs和神经元细胞特异性基因表达系统的基因和干细胞治疗平台。
方法
为检测GMCSF的表达模式,我们通过酶联免疫吸附测定(ELISA)在体外和体内比较了表达神经元细胞特异性GMCSF的NSCs与表达对照GMCSF的NSCs(分别为NSE-GMCSF-NSCs与SV-GMCSF-NSCs)分泌的GMCSF量,然后在体外和体内验证这些细胞的神经保护作用。
结果
结果显示,在常氧、缺氧和细胞毒性条件下,NSE-GMCSF-NSCs比SV-GMCSF-NSCs分泌更多的GMCSF。在细胞毒性条件下,NSE-GMCSF-NSCs的细胞活力根据分泌的GMCSF量而增加。此外,移植到损伤脊髓中的NSE-GMCSF-NSCs分泌的GMCSF量显著高于SV-GMCSF-NSCs。分泌的GMCSF量增加降低了促凋亡蛋白Bax的表达。
结论
在本研究中,我们证明了神经元细胞特异性基因表达系统诱导NSCs中GMCSF的过表达。这些联合的NSCs与基因治疗方案将是一种有效的SCI治疗系统。
证据水平
无。
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