Neurogenesis and Oligodendrogenesis in a Mouse Model of Blast-Induced Traumatic Brain Injury

Neurology and Neurobiology Pub Date : 2020-12-18 DOI:10.31487/j.nnb.2020.03.07

M. Stachowiak, D. Freedman, N. Nived, B. Decker, S. Narla, S. Shafik, S. Manohar, R. Salvi, E. Stachowiak

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引用次数: 1

Abstract

Neurological manifestations of blast-induced Post Traumatic Stress Disorder (PTSD) extend long after the initial injury indicating lasting changes in brain function. In this study, we characterized brain injury, changes in neurogenesis and oligodendrogenesis in an adult murine blast model following a short (5 days) and long (21 days) post-blast recovery. Acoustic blasts led to an initial, activation of microglia and astrogliosis and a widespread cortical and subcortical apoptosis. The loss of myelinated cortical axons at 5 days was followed by the reappearance of abnormal misdirected fibers at 21 days. At 21 days post-blast, we observed increases in doublecortin-positive (DCX+ ) neuroblasts in the subventricular zone (SVZ) and hippocampal subgranular zone (SGZ) indicating increased neurogenesis. No changes in DCX+ cells were found in the brain cortex. In the cortex, the early disappearance of myelinated neuronal fibers was accompanied by a loss of O4+ oligodendrocytes and their Ki67-expreasing (Ki67+ ) oligodendrocyte precursor cells (OPC). However, at 5 days we observed a robust appearance of cells expressing Olig2 (O2+ ), an early determinant of oligodendrocyte lineage. At 21 days post-blast, the population of OPC increased and the mature O4+ oligodendrocytes were restored to control levels. In contrast, in the SVZ and SGZ, O4+ cells were not affected by the blast suggesting a local cortical origin for cortical oligodendrogenesis. These results suggest that blast-induced activation of SVZ and SGZ neurogenesis and cortical oligodendrogenesis could have long-lasting impact on brain function including memory disorders observed in both animal models and human’s PTSD.

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爆炸致创伤性脑损伤小鼠模型的神经发生和少突胶质细胞发生

爆炸引起的创伤后应激障碍(PTSD)的神经学表现在初始损伤后持续很长时间，表明脑功能的持久变化。在这项研究中，我们描述了在短(5天)和长(21天)的爆炸后恢复的成年小鼠模型的脑损伤，神经发生和少突胶质细胞发生的变化。声学爆炸导致小胶质细胞和星形胶质细胞的初始激活以及广泛的皮层和皮层下细胞凋亡。第5天髓鞘皮质轴突丢失，第21天出现异常定向纤维。在细胞形成后21天，我们观察到双皮质素阳性(DCX+)神经母细胞在心室下区(SVZ)和海马颗粒下区(SGZ)增加，表明神经发生增加。脑皮层DCX+细胞未见改变。在皮层中，髓鞘神经元纤维的早期消失伴随着O4+少突胶质细胞及其表达Ki67+的少突胶质细胞前细胞(OPC)的缺失。然而，在第5天，我们观察到表达Olig2 (O2+)的细胞强劲出现，Olig2是少突胶质细胞谱系的早期决定因素。后21天，OPC细胞数量增加，成熟的O4+少突胶质细胞恢复到对照水平。相比之下，在SVZ和SGZ中，O4+细胞不受爆炸的影响，这表明皮质少突胶质细胞的局部起源。这些结果表明，在动物模型和人类创伤后应激障碍中观察到，爆炸诱导的SVZ和SGZ神经发生和皮层少突胶质形成的激活可能对脑功能产生长期影响，包括记忆障碍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Neurology and Neurobiology

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