氧葡萄糖剥夺诱导星形胶质细胞产生神经胶质瘢痕样改变。

Oxygen-glucose deprivation induced glial scar-like change in astrocytes.

机构信息

Department of Pharmacology, Key Laboratory of Medical Neurobiology of Ministry of Health of China, School of Basic Medical Sciences, College of Pharmaceutical Sciences, Zhejiang University, Hangzhou, Zhejiang, People's Republic of China.

出版信息

PLoS One. 2012;7(5):e37574. doi: 10.1371/journal.pone.0037574. Epub 2012 May 22.

DOI:10.1371/journal.pone.0037574

PMID:22629422

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3358261/

Abstract

BACKGROUND

It has been demonstrated that cerebral ischemia induces astrocyte reactivity, and subsequent glial scar formation inhibits axonal regeneration during the recovery phase. Investigating the mechanism of glial scar formation will facilitate the development of strategies to improve axonal regeneration. However, an in vitro model of ischemia-induced glial scar has not yet been systematically established.

METHODOLOGY AND PRINCIPAL FINDINGS

In the present study, we at the first time found that oxygen-glucose deprivation (OGD) in vitro can induce rat cortical astrocytes to present characteristics of glial scar. After OGD for 6 h, astrocytes showed a remarkable proliferation following 24 h reperfusion, evaluated by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay and BrdU immunocytochemistry. Meanwhile, the expression of glial fibrillary acidic protein significantly increased, so did the expression of neurocan, which is a hallmark of the glial scar. In further experiments, neurons were co-cultured with astrocytes, which had been exposed to OGD, and then the immunostaining of class III β-tubulin was carried out to assess the neurite growth. When the co-culture was performed at 48 h reperfusion of astrocytes, the neurite growth was obviously inhibited, and this inhibition could be reversed by chondroitinase ABC, which digests glycosaminoglycan chains on CSPGs, including neurocan. However, the processes of neurons were elongated, when the co-culture was performed immediately after OGD.

CONCLUSIONS AND SIGNIFICANCE

Our results indicated that after conditioned OGD the astrocytes presented the characteristics of the glial scar, which are also comparable to the astrocytes in acute and chronic phases after cerebral ischemia in vivo. Therefore, the present system may be used as an in vitro model to explore the mechanisms underlying glial scar formation and the treatments to improve axonal regeneration after cerebral ischemia.

摘要

背景

已有研究表明，脑缺血诱导星形胶质细胞反应性，随后的神经胶质瘢痕形成抑制了恢复阶段的轴突再生。研究神经胶质瘢痕形成的机制将有助于开发改善轴突再生的策略。然而，尚未系统建立体外诱导的缺血性神经胶质瘢痕模型。

方法和主要发现

在本研究中，我们首次发现体外氧葡萄糖剥夺（OGD）可诱导大鼠皮质星形胶质细胞呈现神经胶质瘢痕特征。OGD 6 h 后，再灌注 24 h 时通过 3-(4,5-二甲基噻唑-2-基)-2,5-二苯基四氮唑溴盐（MTT）比色法和 BrdU 免疫细胞化学检测到星形胶质细胞明显增殖。同时，神经胶质纤维酸性蛋白表达显著增加，神经胶蛋白（神经胶质瘢痕的标志之一）的表达也增加。在进一步的实验中，将神经元与暴露于 OGD 的星形胶质细胞共培养，然后进行 III 型 β-微管蛋白免疫染色以评估轴突生长。当共培养在星形胶质细胞 OGD 后 48 h 进行时，轴突生长明显受到抑制，而用软骨素酶 ABC 消化包括神经胶蛋白在内的 CSPGs 的糖胺聚糖链可逆转这种抑制。然而，当共培养在 OGD 后立即进行时，神经元的突起伸长。

结论和意义

我们的结果表明，经条件 OGD 处理后的星形胶质细胞呈现出神经胶质瘢痕的特征，与体内急性和慢性脑缺血后星形胶质细胞的特征相似。因此，该系统可用于体外模型来研究神经胶质瘢痕形成的机制以及改善脑缺血后轴突再生的治疗方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f92a/3358261/db2578fb9617/pone.0037574.g001.jpg

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氧葡萄糖剥夺诱导星形胶质细胞产生神经胶质瘢痕样改变。

Oxygen-glucose deprivation induced glial scar-like change in astrocytes.

机构信息

出版信息

BACKGROUND

METHODOLOGY AND PRINCIPAL FINDINGS

CONCLUSIONS AND SIGNIFICANCE

背景

方法和主要发现

结论和意义

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