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鉴定谷氨酸受体GluR3中对抗体结合和受体特异性激活重要的氨基酸。

Identification of amino acids in the glutamate receptor, GluR3, important for antibody-binding and receptor-specific activation.

作者信息

Carlson N G, Gahring L C, Twyman R E, Rogers S W

机构信息

Salt Lake City Veteran's Administration Medical Center and Geriatrics Research, Education and Clinical Center, Salt Lake City, Utah 84148, USA.

出版信息

J Biol Chem. 1997 Apr 25;272(17):11295-301. doi: 10.1074/jbc.272.17.11295.

DOI:10.1074/jbc.272.17.11295
PMID:9111034
Abstract

We reported (Twyman, R. E., Gahring, L. C., Speiss, J., and Rogers, S. W. (1995) Neuron 14, 755-762) that antibodies to a subregion of the glutamate receptor (GluR) subunit GluR3 termed GluR3B (amino acids 372-395), act as highly specific GluR agonists. In this study we produced additional rabbit anti-GluR3B-specific antibodies, ranked them according to their ability to function as GluR agonists and characterized the immunoreactivity using deletion and alanine substitution mutagenesis. These anti-GluR3B antibodies bound to a subset of the residues in GluR3B (amino acids 372-386), of which glutamate 375, valine 378, proline 379, and phenylalanine (Phe) 380 were preferred. The level of GluR activation correlated with the binding of antibody to Phe-380, which suggests that immunoreactivity directed toward Phe-380 is an index for the anti-GluR agonist potential. Since the identity of this residue varies between respective GluR subunits, this suggested that this residue may be important for imparting antibody subunit specificity. To test this possibility, the alanine in GluR1 was converted to a phenylalanine, which extended the subunit specificity from GluR3 to the modified GluR1. We conclude that antibody contacts with key residues in the GluR3B region define a novel GluR subunit-specific agonist binding site and impart subunit-specific immunoreactivity.

摘要

我们曾报道过(Twyman, R. E., Gahring, L. C., Speiss, J., and Rogers, S. W. (1995) Neuron 14, 755 - 762),针对谷氨酸受体(GluR)亚基GluR3的一个被称为GluR3B(氨基酸372 - 395)的亚区域的抗体,可作为高度特异性的GluR激动剂。在本研究中,我们制备了更多兔抗GluR3B特异性抗体,根据它们作为GluR激动剂的功能能力对其进行排序,并使用缺失和丙氨酸替代诱变来表征其免疫反应性。这些抗GluR3B抗体与GluR3B中的一部分残基(氨基酸372 - 386)结合,其中谷氨酸375、缬氨酸378、脯氨酸379和苯丙氨酸(Phe)380是优先结合的。GluR激活水平与抗体与苯丙氨酸 - 380的结合相关,这表明针对苯丙氨酸 - 380的免疫反应性是抗GluR激动剂潜力的一个指标。由于该残基在各个GluR亚基之间的身份不同,这表明该残基可能对于赋予抗体亚基特异性很重要。为了验证这种可能性,将GluR1中的丙氨酸转换为苯丙氨酸,这将亚基特异性从GluR3扩展到了修饰后的GluR1。我们得出结论,抗体与GluR3B区域中的关键残基的接触定义了一个新的GluR亚基特异性激动剂结合位点,并赋予了亚基特异性免疫反应性。

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J Biol Chem. 1997 Apr 25;272(17):11295-301. doi: 10.1074/jbc.272.17.11295.
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