配体门控离子通道胞外结构域的长距离效应可能会影响其与细胞内机制的相互作用。

Long distance effect on ligand-gated ion channels extracellular domain may affect interactions with the intracellular machinery.

作者信息

Garret Maurice, Boué-Grabot Eric, Taly Antoine

机构信息

Univ. Bordeaux; INCIA; UMR 5287; Bordeaux, France ; CNRS; INCIA; UMR 5287; Bordeaux, France.

Univ. de Bordeaux, Institut des Maladies Neurodégénératives, UMR 5293, Bordeaux, France ; CNRS; Institut des Maladies Neurodégénératives; UMR 5293; Bordeaux, France.

出版信息

Commun Integr Biol. 2014 Feb 6;7:e27984. doi: 10.4161/cib.27984. eCollection 2014.

DOI:10.4161/cib.27984

PMID:25254078

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4167410/

Abstract

Modulation of receptor trafficking is critical for controlling neurotransmission. A γ2(R43Q) point mutation on GABAA receptor subunit is linked to epilepsy in human. We recently analyzed the effect of this amino-acid substitution on GABAA receptor trafficking and showed that this mutation as well as agonist application, both affecting GABAA receptor extracellular domain, have an effect on receptor endocytosis. By comparing homology models based on ligand gated ion channels in their active and resting states, we reveal that the γ2R43 domain is located in a loop that is affected by motion resulting from receptor activation. Taken together, these results suggest that endocytosis of GABAA receptors is linked to agonist induced conformational changes. We propose that ligand or modulator binding is followed by a whole chain of interconnections, including the intracellular domain, that may influence ligand-gated channel trafficking.

摘要

受体转运的调节对于控制神经传递至关重要。GABAA受体亚基上的γ2（R43Q）点突变与人类癫痫有关。我们最近分析了这种氨基酸替代对GABAA受体转运的影响，并表明这种突变以及激动剂的应用，两者均影响GABAA受体的细胞外结构域，对受体内吞作用有影响。通过比较基于配体门控离子通道处于活性和静息状态的同源模型，我们发现γ2R43结构域位于一个环中，该环受到受体激活引起的运动影响。综上所述，这些结果表明GABAA受体的内吞作用与激动剂诱导的构象变化有关。我们提出，配体或调节剂结合后会发生一系列相互联系，包括细胞内结构域，这可能会影响配体门控通道的转运。

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配体门控离子通道胞外结构域的长距离效应可能会影响其与细胞内机制的相互作用。

Long distance effect on ligand-gated ion channels extracellular domain may affect interactions with the intracellular machinery.

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