Cellular Function Imaging Laboratory, RIKEN Center for Molecular Imaging Science, Kobe, Japan.
J Cereb Blood Flow Metab. 2012 Oct;32(10):1879-87. doi: 10.1038/jcbfm.2012.98. Epub 2012 Jul 11.
Cortical spreading depression (SD) is propagating neuronal and glial depolarization and is thought to underly the pathophysiology of migraine. We have reported that cortical SD facilitates the proliferative activity of NG2-containing progenitor cells (NG2 cells) that give rise to oligodendrocytes and immature neurons under the physiological conditions in the adult mammalian cortex. Astrocytes have an important role in the maintenance of neuronal functions and alleviate neuronal damage after intense neuronal excitation, including SD and seizures. We here investigated whether SD promotes astrocyte generation from NG2 cells following SD stimuli. Spreading depression was induced by epidural application of 1 mol/L KCl solution in adult rats. We investigated the cell fate of NG2 cells following SD-induced proliferation using 5'-bromodeoxyuridine labeling and immunohistochemical analysis. Newly generated astrocytes were observed only in the SD-stimulated cortex, but not in the contralateral cortex or in normal cortex. The astrocytes were generated from proliferating NG2 cells. Astrogenesis depended on the number of SD stimuli, and was accompanied by suppression of oligodendrogenesis. These observations indicate that the cell fate of NG2 cells was shifted from oligodendrocytes to astrocytes depending on SD stimuli, suggesting activity-dependent tissue remodeling for maintenance of brain functions.
皮质扩散性抑制(SD)是一种传播性的神经元和神经胶质去极化,被认为是偏头痛病理生理学的基础。我们已经报道过,在成年哺乳动物皮质的生理条件下,皮质 SD 促进了含有 NG2 的祖细胞(NG2 细胞)的增殖活性,这些祖细胞产生少突胶质细胞和未成熟神经元。星形胶质细胞在维持神经元功能和减轻包括 SD 和癫痫在内的强烈神经元兴奋引起的神经元损伤方面发挥着重要作用。我们在这里研究了 SD 是否会促进 SD 刺激后 NG2 细胞向星形胶质细胞的生成。在成年大鼠中,通过硬膜外应用 1mol/L KCl 溶液诱导 SD。我们使用 5'-溴脱氧尿苷标记和免疫组织化学分析来研究 SD 诱导增殖后 NG2 细胞的细胞命运。仅在 SD 刺激的皮质中观察到新生成的星形胶质细胞,而在对侧皮质或正常皮质中未观察到。星形胶质细胞来源于增殖的 NG2 细胞。星形胶质细胞的发生依赖于 SD 刺激的次数,并且伴随着少突胶质细胞生成的抑制。这些观察结果表明,NG2 细胞的细胞命运取决于 SD 刺激,从少突胶质细胞向星形胶质细胞转移,提示活动依赖性组织重塑以维持脑功能。