缺血后脑组织浸润干细胞中神经保护/再生基因的诱导。

Gokhan Yilmaz, J Steven Alexander, Cigdem Erkuran Yilmaz, D Neil Granger
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引用次数: 31

摘要

背景:尽管骨髓源性基质干细胞(BMSC)的治疗潜力已经在不同的缺血性中风实验模型中得到证实,但干细胞(SC)如何诱导中风后的神经保护尚不清楚。在这项研究中,我们描述了一种分离浸润脑缺血后脑组织的BMSC的新方法,并使用该方法鉴定缺血性卒中后浸润脑组织的BMSC中持续激活或抑制的基因。方法:阻断C57BL/6小鼠大脑中动脉1 h后再灌注诱导缺血性脑卒中。从h -2 Kb-tsA58(不朽小鼠)小鼠中分离BMSC,在再灌注24 h后给药(静脉注射)。在治疗改善的高峰期(缺血损伤后14天),分离梗死脑组织,在33℃下培养分离BMSC,采用微阵列分析和RT-PCR比较naïve和浸润BMSC群体之间的差异基因表达。结果:z评分显示naïve与浸润BMSC之间细胞外基因的表达存在显著差异。两两分析发现,在naïve与浸润的BMSC之间,有80个细胞外因子基因表达上调(>/= 2倍,P < 0.05, benjamin - hochberg校正)。虽然一些预期的神经再生、神经引导和血管生成因子(如bFGF、骨形态发生蛋白、血管生成素、神经生长因子)基因表达增加,但也注意到神经引导存活基因的显著诱导(如细胞因子受体样因子1、glypican 1、Dickkopf同源物2、骨桥蛋白)。结论:与naïve相比,骨髓间充质干细胞浸润缺血性脑后,在许多细胞外基因的基因表达方面表现出持续的表观遗传变化。这些基因与先前描述的缺血性中风动物模型干细胞治疗后的神经保护、再生和血管生成有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Induction of neuro-protective/regenerative genes in stem cells infiltrating post-ischemic brain tissue.

Induction of neuro-protective/regenerative genes in stem cells infiltrating post-ischemic brain tissue.

Induction of neuro-protective/regenerative genes in stem cells infiltrating post-ischemic brain tissue.

Induction of neuro-protective/regenerative genes in stem cells infiltrating post-ischemic brain tissue.

Background: Although the therapeutic potential of bone marrow-derived stromal stem cells (BMSC) has been demonstrated in different experimental models of ischemic stroke, it remains unclear how stem cells (SC) induce neuroprotection following stroke. In this study, we describe a novel method for isolating BMSC that infiltrate postischemic brain tissue and use this method to identify the genes that are persistently activated or depressed in BMSC that infiltrate brain tissue following ischemic stroke.

Methods: Ischemic strokes were induced in C57BL/6 mice by middle cerebral artery occlusion for 1 h, followed by reperfusion. BMSC were isolated from H-2 Kb-tsA58 (immortomouse) mice, and were administered (i.v.) 24 h after reperfusion. At the peak of therapeutic improvement (14 days after the ischemic insult), infarcted brain tissue was isolated, and the BMSC were isolated by culturing at 33 degrees C. Microarray analysis and RT-PCR were performed to compare differential gene expression between naïve and infiltrating BMSC populations.

Results: Z-scoring revealed dramatic differences in the expression of extracellular genes between naïve and infiltrating BMSC. Pair-wise analysis detected 80 extracellular factor genes that were up-regulated (>/= 2 fold, P < 0.05, Benjamini-Hochberg correction) between naïve and infiltrated BMSC. Although several anticipated neuroregenerative, nerve guidance and angiogenic factor (e.g., bFGF, bone morphogenetic protein, angiopoietins, neural growth factor) genes exhibited an increased expression, a remarkable induction of genes for nerve guidance survival (e.g., cytokine receptor-like factor 1, glypican 1, Dickkopf homolog 2, osteopontin) was also noted.

Conclusions: BMSC infiltrating the post-ischemic brain exhibit persistent epigenetic changes in gene expression for numerous extracellular genes, compared to their naïve counterparts. These genes are relevant to the neuroprotection, regeneration and angiogenesis previously described following stem cell therapy in animal models of ischemic stroke.

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