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Guanhua Xu Jinlong Zhang Lingling Wang Zhiming Cui Xu Sun Zhen Liu Zezhang Zhu Yong Qiu 《Tissue & cell》2017,49(5):589-596
Tumor necrosis factor receptor-associated factor 2 (TRAF2) for signal transduction of the cell death receptor is well established. However, the role of TRAF2 in spinal cord injury (SCI) remains unclear. In this study, we detected the dynamic change patterns of TRAF2 expression using an acute spinal cord contusion (SCC) model in adult rats. Western blot analysis and immunohistochemistry identified significant upregulation of TRAF2 after SCI. Double-immunofluorescent staining demonstrated that the upregulated TRAF2 was found predominantly in neurons. Moreover, colocalization of TRAF2 with active caspase-3/-8 was detected in NeuN-positive cells. In vitro, we analyzed the association of TRAF2 with active caspase-3/8 on PC12 cells by western blot analysis, which paralleled the in vivo data. Knockdown ofTRAF2 with siRNA demonstrated its probable anti-apoptotic role in the process of neuronal apoptosis after SCI. To summarize, we have revealed for the first time the temporal and spatial expression profile of TRAF2 in SCI. Our data suggest that upregulation of TRAF2 triggered by trauma plays an important role in suppressing neuronal apoptosis after SCI. 相似文献
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Christina L. Ross Ishaq Syed Thomas L. Smith Benjamin S. Harrison 《Electromagnetic biology and medicine》2017,36(1):74-87
Traumatic spinal cord injury (SCI) is typically the result of direct mechanical impact to the spine, leading to fracture and/or dislocation of the vertebrae along with damage to the surrounding soft tissues. Injury to the spinal cord results in disruption of axonal transmission of signals. This primary trauma causes secondary injuries that produce immunological responses such as neuroinflammation, which perpetuates neurodegeneration and cytotoxicity within the injured spinal cord. To date there is no FDA-approved pharmacological agent to prevent the development of secondary SCI and induce regenerative processes aimed at healing the spinal cord and restoring neurological function. An alternative method to electrically activate spinal circuits is the application of a noninvasive electromagnetic field (EMF) over intact vertebrae. The EMF method of modulating molecular signaling of inflammatory cells emitted in the extra-low frequency range of <100 Hz, and field strengths of <5 mT, has been reported to decrease inflammatory markers in macrophages, and increase endogenous mesenchymal stem cell (MSC) proliferation and differentiation rates. EMF has been reported to promote osteogenesis by improving the effects of osteogenic media, and increasing the proliferation of osteoblasts, while inhibiting osteoclast formation and increasing bone matrix in vitro. EMF has also been shown to increase chondrogenic markers and collagen and induce neural differentiation, while increasing cell viability by over 50%. As advances are made in stem cell technologies, stabilizing the cell line after differentiation is crucial to SCI repair. Once cell-seeded scaffolds are implanted, EMF may be applied outside the wound for potential continued adjunct treatment during recovery. 相似文献
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基因治疗脊髓损伤(SCI)既不存在胎儿神经组织移植的组织来源问题,且比外周神经组织移植引起的排异性低,是目前脊髓损伤治疗中最有前途的方法.基因治疗的转基因方式有两种:一是将目的基因直接导入体内靶细胞令其表达;二是将基因在体外导入适当的细胞内,并筛选出高效表达的移植细胞作为转基因中介移植到体内靶组织.不论采用何种方式,将基因导入细胞又可用多种手段实现:如微注射、脂质体等物理或化学手段;利用缺陷病毒作为载体感染细胞的生物学手段.因为用生物学手段转基因的细胞移植方法空间定位明确,所以目前最常采用它作为基因治疗效果的研究.虽然SCI基因治疗目前仍停留在实验探索阶段,一些问题尚待解决,但随着基因治疗技术方法的不断提高,它的临床应用前景可以预见. 相似文献
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大鼠脊髓挤压伤后NT-3、NT-4在腹角运动神经元表达的变化 总被引:1,自引:0,他引:1
我们前面的研究已证实,神经生长因子和脑源性神经营养因子与成年大鼠挤压性脊髓损伤修复有关。在本研究中,通过免疫组织化学ABC法,我们探讨了挤压伤后不同时间脊髓腹角神经元NT-3和NT-4的表达。结果显示,在对照组,NT-3和NT-4的阳性反应主要分布在脊髓腹角神经元,挤压性脊髓损伤后7天和21天,NT-3阳性神经元的数量较对照组和24小时组明显增加,比较之,损伤后24小时和7天,NT-4阳性神经元的数量已较正常者增多,且NT-T的反应强度21天者较24小时和7天者有增多。结果表明NT-3和NT-4的表达在挤压性损伤后的脊髓腹角神经元被不同程度地上调,提示NT-3和NT-4可能与挤压性脊髓损伤修复有关。 相似文献
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以SCI期刊引用报告JCR最新网络版 (2006年) 为依据, 对其收录的88种微生物科学期刊进行了统计分析。结果显示:这88种期刊由美、英、荷兰、德和日本等16个国家用3种语言出版, 且主要语言是英语; 年均载文量165篇, 平均被引频次5226.64次; 影响因子、即时指标和被引半衰期的平均值分别为3.154、0.45和5.84年。最后根据影响因子的大小, 列出影响因子超过2.0的55种核心期刊相关信息。 相似文献
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Tienan Wang MD Baolin Wu MD Xiuzhi Zhang MD Meng Zhang MD Shuo Zhang MD Wei Huang MD Tao Liu MD Weiting Yu MD Junlei Li MD Xiaobing Yu MD 《Journal of cellular biochemistry》2019,120(5):6988-6997
Spinal cord injury (SCI) is characterized by dramatic neurons loss and axonal regeneration suppression. The underlying mechanism associated with SCI-induced immune suppression is still unclear. Weighted gene coexpression network analysis (WGCNA) is now widely applied for the identification of the coexpressed modules, hub genes, and pathways associated with clinic traits of diseases. We performed this study to identify hub genes associated with SCI development. Gene Expression Omnibus (GEO) data sets GSE45006 and GSE20907 were downloaded and the significant correlativity and connectivity between them were detected using WGCNA. Three significant consensus modules, including 567 eigengenes, were identified from the master GSE45006 data following the preconditions of approximate scale-free topology for WGCNA. Further bioinformatics analysis showed these eigengenes were involved in inflammatory and immune responses in SCI. Three hub genes Rac2, Itgb2, and Tyrobp and one pathway “natural killer cell-mediated cytotoxicity” were identified following short time-series expression miner, protein-protein interaction network, and functional enrichment analysis. Gradually upregulated expression patterns of Rac2, Itgb2, and Tyrobp genes at 0, 3, 7, and 14 days after SCI were confirmed based on GSE45006 and GSE20907 data set. Finally, we found that Rac2, Itgb2, and Tyrobp genes might take crucial roles in SCI development through the “natural killer cell–mediated cytotoxicity” pathway. 相似文献
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