星形胶质细胞铁外排在髓鞘再生中起作用。

Iron efflux from astrocytes plays a role in remyelination.

机构信息

Centre for Research in Neuroscience, The Research Institute of the McGill University Health Center, Montreal, Québec H3G 1A4, Canada.

出版信息

J Neurosci. 2012 Apr 4;32(14):4841-7. doi: 10.1523/JNEUROSCI.5328-11.2012.

DOI:10.1523/JNEUROSCI.5328-11.2012

PMID:22492039

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6620916/

Abstract

How iron is delivered to the CNS for myelination is not well understood. We assessed whether astrocytes can provide iron to cells in the CNS for remyelination. To study this we generated a conditional deletion of the iron efflux transporter ferroportin (Fpn) in astrocytes, and induced focal demyelination in the mouse spinal cord dorsal column by microinjection of lysophosphatidylcholine (LPC). Remyelination assessed by electron microscopy was reduced in astrocyte-specific Fpn knock-out mice compared with wild-type controls, as was proliferation of oligodendrocyte precursor cells (OPCs). Cell culture work showed that lack of iron reduces the ability of microglia to express cytokines (TNF-α and IL-1β) involved in remyelination. Furthermore, astrocytes in culture express high levels of FGF-2 in response to IL-1β, and IGF-1 in response to TNF-α stimulation. FGF-2 and IGF-1 are known to be important for myelination. Reduction in IL-1β and IGF-1 were also seen in astrocyte-specific Fpn knock-out mice after LPC-induced demyelination. These data suggest that iron efflux from astrocytes plays a role in remyelination by either direct effects on OPCs or indirectly by affecting glial activation.

摘要

铁如何被递送到中枢神经系统以进行髓鞘形成还不是很清楚。我们评估了星形胶质细胞是否可以为中枢神经系统中的细胞提供铁来进行髓鞘修复。为了研究这个问题，我们在星形胶质细胞中生成了铁输出转运蛋白铁蛋白（Fpn）的条件性缺失，并通过溶血磷脂酰胆碱（LPC）微注射在小鼠脊髓背柱中诱导局灶性脱髓鞘。与野生型对照相比，星形胶质细胞特异性 Fpn 敲除小鼠的髓鞘修复通过电子显微镜评估的结果明显减少，少突胶质细胞前体细胞（OPC）的增殖也是如此。细胞培养工作表明，缺乏铁会降低小胶质细胞表达参与髓鞘修复的细胞因子（TNF-α 和 IL-1β）的能力。此外，培养中的星形胶质细胞对 IL-1β 表达高水平的 FGF-2，对 TNF-α 刺激表达 IGF-1。众所周知，FGF-2 和 IGF-1 对髓鞘形成很重要。在 LPC 诱导脱髓鞘后，星形胶质细胞特异性 Fpn 敲除小鼠中也观察到 IL-1β 和 IGF-1 的减少。这些数据表明，星形胶质细胞铁输出对 OPCs 具有直接作用，或者通过影响神经胶质细胞的激活而间接影响髓鞘修复。

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