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成纤维细胞生长因子同源因子(FHF)的晶体结构定义了FHFs上一个保守的表面,用于结合和调节电压门控钠通道。

Crystal structure of a fibroblast growth factor homologous factor (FHF) defines a conserved surface on FHFs for binding and modulation of voltage-gated sodium channels.

作者信息

Goetz Regina, Dover Katarzyna, Laezza Fernanda, Shtraizent Nataly, Huang Xiao, Tchetchik Dafna, Eliseenkova Anna V, Xu Chong-Feng, Neubert Thomas A, Ornitz David M, Goldfarb Mitchell, Mohammadi Moosa

机构信息

Department of Pharmacology, Skirball Institute of Biomolecular Medicine, New York University School of Medicine, New York, NY 10016, USA.

出版信息

J Biol Chem. 2009 Jun 26;284(26):17883-96. doi: 10.1074/jbc.M109.001842. Epub 2009 Apr 30.

DOI:10.1074/jbc.M109.001842
PMID:19406745
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2719427/
Abstract

Voltage-gated sodium channels (Nav) produce sodium currents that underlie the initiation and propagation of action potentials in nerve and muscle cells. Fibroblast growth factor homologous factors (FHFs) bind to the intracellular C-terminal region of the Nav alpha subunit to modulate fast inactivation of the channel. In this study we solved the crystal structure of a 149-residue-long fragment of human FHF2A which unveils the structural features of the homology core domain of all 10 human FHF isoforms. Through analysis of crystal packing contacts and site-directed mutagenesis experiments we identified a conserved surface on the FHF core domain that mediates channel binding in vitro and in vivo. Mutations at this channel binding surface impaired the ability of FHFs to co-localize with Navs at the axon initial segment of hippocampal neurons. The mutations also disabled FHF modulation of voltage-dependent fast inactivation of sodium channels in neuronal cells. Based on our data, we propose that FHFs constitute auxiliary subunits for Navs.

摘要

电压门控钠通道(Nav)产生钠电流,该电流是神经和肌肉细胞中动作电位起始和传播的基础。成纤维细胞生长因子同源因子(FHFs)与Navα亚基的细胞内C末端区域结合,以调节通道的快速失活。在本研究中,我们解析了人FHF2A一个149个残基长片段的晶体结构,该结构揭示了所有10种人FHF异构体同源核心结构域的结构特征。通过对晶体堆积接触的分析和定点诱变实验,我们在FHF核心结构域上鉴定出一个保守表面,该表面在体外和体内介导通道结合。该通道结合表面的突变损害了FHFs与Navs在海马神经元轴突起始段共定位的能力。这些突变还使FHFs对神经元细胞中钠通道电压依赖性快速失活的调节失效。基于我们的数据,我们提出FHFs构成Navs的辅助亚基。

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