GLAST的细胞骨架锚定决定脑损伤易感性：GFAP的一个明确作用。

Cytoskeletal anchoring of GLAST determines susceptibility to brain damage: an identified role for GFAP.

作者信息

Sullivan Susan M, Lee Aven, Björkman S Tracey, Miller Stephanie M, Sullivan Robert K P, Poronnik Philip, Colditz Paul B, Pow David V

机构信息

School of Biomedical Sciences, University of Newcastle, Callaghan, New South Wales 2308, Australia.

出版信息

J Biol Chem. 2007 Oct 5;282(40):29414-23. doi: 10.1074/jbc.M704152200. Epub 2007 Aug 6.

DOI:10.1074/jbc.M704152200

PMID:17684014

Abstract

Glial fibrillary acidic protein (GFAP) is an enigmatic protein; it currently has no unambiguously defined role. It is expressed in the cytoskeleton of astrocytes in the mammalian brain. We have used co-immunoprecipitation to identify in vivo binding partners for GFAP in the rat and pig brain. We demonstrate interactions between GFAP, the glutamate transporter GLAST, the PDZ-binding protein NHERF1, and ezrin. These interactions are physiologically relevant; we demonstrate in vitro that transport of D-aspartate (a glutamate analogue) is significantly increased in the presence of GFAP and NHERF1. Moreover, we demonstrate in vivo that expression of GFAP is essential in retaining GLAST in the plasma membranes of astrocytes after an hypoxic insult. These data indicate that the cytoskeleton of the astrocyte plays an important role in protecting the brain against glutamate-mediated excitotoxicity.

摘要

胶质纤维酸性蛋白（GFAP）是一种神秘的蛋白质；目前它没有明确界定的作用。它在哺乳动物大脑的星形胶质细胞的细胞骨架中表达。我们利用免疫共沉淀法在大鼠和猪脑中鉴定GFAP的体内结合伴侣。我们证明了GFAP、谷氨酸转运体GLAST、PDZ结合蛋白NHERF1和埃兹蛋白之间的相互作用。这些相互作用具有生理相关性；我们在体外证明，在GFAP和NHERF1存在的情况下，D-天冬氨酸（一种谷氨酸类似物）的转运显著增加。此外，我们在体内证明，在缺氧损伤后，GFAP的表达对于将GLAST保留在星形胶质细胞的质膜中至关重要。这些数据表明，星形胶质细胞的细胞骨架在保护大脑免受谷氨酸介导的兴奋性毒性方面起着重要作用。

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GLAST的细胞骨架锚定决定脑损伤易感性：GFAP的一个明确作用。

Cytoskeletal anchoring of GLAST determines susceptibility to brain damage: an identified role for GFAP.

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