Notch 信号通路调控缺血性脑卒中后反应性星形胶质细胞分化过程中的核质间 Olig2 转位。

Notch signaling regulates nucleocytoplasmic Olig2 translocation in reactive astrocytes differentiation after ischemic stroke.

机构信息

Research Institute, Shiga Medical Center, Moriyama 5-4-30, Shiga 524-8524, Japan.

出版信息

Neurosci Res. 2013 Mar;75(3):204-9. doi: 10.1016/j.neures.2013.01.006. Epub 2013 Feb 7.

DOI:10.1016/j.neures.2013.01.006

Abstract

Treatment with DAPT, an inhibitor of the Notch-activating enzyme, γ-secretase is known to reduce damage to ischemic brain. However, the molecular mechanisms supporting this therapeutic effect are not fully understood. Here we demonstrated that Notch/RBP-J signaling is activated in NG2(+) glial progenitors and reactive astrocytes such as GFAP(+) cells, Nestin(+) cells and RC2(+) cells, using Notch/RBP-J signaling reporter mice. 3-day DAPT treatment reduced the number of reactive astrocytes but not NG2(+) glial progenitors. BrdU labeling experiments have shown that this reduction was due to decreased proliferation of reactive astrocytes. DAPT inhibited nuclear-translocation of Olig2, which is indispensable for proliferation and differentiation of reactive astrocytes. These findings suggest that Notch signaling might promote proliferation and differentiation of reactive astrocytes through the regulation of nucleo-cytoplasmic translocation of Olig2.

摘要

用 Notch 激活酶 γ-分泌酶抑制剂 DAPT 治疗已知可减少对缺血性脑的损伤。然而，支持这种治疗效果的分子机制尚不完全清楚。在这里，我们使用 Notch/RBP-J 信号报告小鼠证明了 Notch/RBP-J 信号在 NG2(+)神经胶质前体细胞和反应性星形胶质细胞中被激活，如 GFAP(+)细胞、Nestin(+)细胞和 RC2(+)细胞。3 天的 DAPT 治疗减少了反应性星形胶质细胞的数量，但没有减少 NG2(+)神经胶质前体细胞的数量。BrdU 标记实验表明，这种减少是由于反应性星形胶质细胞的增殖减少所致。DAPT 抑制了 Olig2 的核易位，而 Olig2 对于反应性星形胶质细胞的增殖和分化是必不可少的。这些发现表明，Notch 信号可能通过调节 Olig2 的核质易位来促进反应性星形胶质细胞的增殖和分化。

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Notch signaling regulates nucleocytoplasmic Olig2 translocation in reactive astrocytes differentiation after ischemic stroke.Notch 信号通路调控缺血性脑卒中后反应性星形胶质细胞分化过程中的核质间 Olig2 转位。

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Notch 信号通路调控缺血性脑卒中后反应性星形胶质细胞分化过程中的核质间 Olig2 转位。

Notch signaling regulates nucleocytoplasmic Olig2 translocation in reactive astrocytes differentiation after ischemic stroke.

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