氧化应激干扰了小鼠长时间脑低灌注后白质的更新。

Oxidative stress interferes with white matter renewal after prolonged cerebral hypoperfusion in mice.

机构信息

From the Neuroprotection Research Laboratory, Departments of Radiology and Neurology, Massachusetts General Hospital, Harvard Medical School, Boston, MA (N.M., T.M., L.-D.D.P., K.H., J.H.S., E.T.M., E.H.L., K.A.); Athinoula A. Martinos Center for Biomedical Imaging, Department of Radiology, Massachusetts General Hospital, Harvard Medical School, Charlestown, MA (J.B.M.); and NeuroVascular Coordination Research Center, College of Pharmacy and Research Institute of Pharmaceutical Sciences (J.H.S., K.-W.K.) and Department of Molecular Medicine and Biopharmaceutical Sciences, Graduate School of Convergence Science and Technology (K.-W.K.), Seoul National University, Seoul, Korea.

出版信息

Stroke. 2013 Dec;44(12):3516-21. doi: 10.1161/STROKEAHA.113.002813. Epub 2013 Sep 26.

DOI:10.1161/STROKEAHA.113.002813

PMID:24072001

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3985753/

Abstract

BACKGROUND AND PURPOSE

White matter injury caused by cerebral hypoperfusion may contribute to the pathophysiology of vascular dementia and stroke, but the underlying mechanisms remain to be fully defined. Here, we test the hypothesis that oxidative stress interferes with endogenous white matter repair by disrupting renewal processes mediated by oligodendrocyte precursor cells (OPCs).

METHODS

In vitro, primary rat OPCs were exposed to sublethal CoCl2 for 7 days to induce prolonged chemical hypoxic stress. Then, OPC proliferation/differentiation was assessed. In vivo, prolonged cerebral hypoperfusion was induced by bilateral common carotid artery stenosis in mice. Then, reactive oxygen species production, myelin density, oligodendrocyte versus OPC counts, and cognitive function were evaluated. To block oxidative stress, OPCs and mice were treated with the radical scavenger edaravone.

RESULTS

Prolonged chemical hypoxic stress suppressed OPC differentiation in vitro. Radical scavenging with edaravone ameliorated these effects. After 28 days of cerebral hypoperfusion in vivo, reactive oxygen species levels were increased in damaged white matter, along with the suppression of OPC-to-oligodendrocyte differentiation and loss of myelin staining. Concomitantly, mice showed functional deficits in working memory. Radical scavenging with edaravone rescued OPC differentiation, ameliorated myelin loss, and restored working memory function.

CONCLUSIONS

Our proof-of-concept study demonstrates that after prolonged cerebral hypoperfusion, oxidative stress interferes with white matter repair by disrupting OPC renewal mechanisms. Radical scavengers may provide a potential therapeutic approach for white matter injury in vascular dementia and stroke.

摘要

背景与目的

脑灌注不足引起的白质损伤可能导致血管性痴呆和中风的病理生理学改变，但潜在机制仍未完全明确。本研究旨在验证氧化应激通过破坏少突胶质前体细胞（OPC）介导的更新过程干扰内源性白质修复的假说。

方法

体外实验中，原代大鼠 OPC 用亚致死浓度 CoCl2 处理 7 天，以诱导持续的化学缺氧应激。然后评估 OPC 的增殖/分化情况。体内实验中，通过双侧颈总动脉狭窄诱导长时间的脑灌注不足。然后评估活性氧产生、髓鞘密度、少突胶质细胞与 OPC 计数以及认知功能。为了阻断氧化应激，用自由基清除剂依达拉奉处理 OPC 和小鼠。

结果

持续的化学缺氧应激抑制了体外 OPC 的分化。用依达拉奉进行自由基清除可改善这些效应。在体内脑灌注不足 28 天后，损伤白质中活性氧水平升高，同时 OPC 向少突胶质细胞分化受到抑制，髓鞘染色丢失。同时，小鼠在工作记忆方面表现出功能缺陷。用依达拉奉进行自由基清除可挽救 OPC 的分化，改善髓鞘丢失，并恢复工作记忆功能。

结论

本概念验证研究表明，在长时间脑灌注不足后，氧化应激通过破坏 OPC 更新机制干扰白质修复。自由基清除剂可能为血管性痴呆和中风的白质损伤提供一种潜在的治疗方法。

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