RNA编辑产生甘氨酸受体α3（P185L），导致高激动剂效力。

RNA editing produces glycine receptor alpha3(P185L), resulting in high agonist potency.

作者信息

Meier Jochen C, Henneberger Christian, Melnick Igor, Racca Claudia, Harvey Robert J, Heinemann Uwe, Schmieden Volker, Grantyn Rosemarie

机构信息

Department of Developmental Physiology, Johannes-Mueller Center of Physiology, Charité University Medicine, 10117 Berlin, Germany.

出版信息

Nat Neurosci. 2005 Jun;8(6):736-44. doi: 10.1038/nn1467. Epub 2005 May 15.

DOI:10.1038/nn1467

PMID:15895087

Abstract

The function of supramedullary glycine receptors (GlyRs) is still unclear. Using Wistar rat collicular slices, we demonstrate GlyR-mediated inhibition of spike discharge elicited by low glycine (10 microM). Searching for the molecular basis of this phenomenon, we identified a new GlyR isoform. GlyR alpha3(P185L), a result of cytidine 554 deamination, confers high glycine sensitivity (EC50 approximately 5 microM) to neurons and thereby promotes the generation of sustained chloride conductances associated with tonic inhibition. The level of GlyR alpha3-C554U RNA editing is sensitive to experimentally induced brain lesion, inhibition of cytidine deamination by zebularine and inhibition of mRNA transcription by actinomycin D, but not to blockade of protein synthesis by cycloheximide. Conditional regulation of GlyR alpha3(P185L) is thus likely to be part of a post-transcriptional adaptive mechanism in neurons with enhanced excitability.

摘要

延髓上甘氨酸受体（GlyRs）的功能仍不清楚。利用Wistar大鼠的视丘切片，我们证明了甘氨酸受体介导的对低浓度甘氨酸（10微摩尔）引发的动作电位发放的抑制作用。为了探寻这一现象的分子基础，我们鉴定出一种新的甘氨酸受体亚型。甘氨酸受体α3（P185L）是胞苷554脱氨基的结果，它赋予神经元高甘氨酸敏感性（半数有效浓度约为5微摩尔），从而促进与紧张性抑制相关的持续性氯离子电导的产生。甘氨酸受体α3 - C554U RNA编辑水平对实验性诱导的脑损伤、zebularine对胞苷脱氨基的抑制作用以及放线菌素D对mRNA转录的抑制作用敏感，但对环己酰亚胺阻断蛋白质合成不敏感。因此，甘氨酸受体α3（P185L）的条件性调节可能是兴奋性增强的神经元中一种转录后适应性机制的一部分。

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RNA编辑产生甘氨酸受体α3（P185L），导致高激动剂效力。

RNA editing produces glycine receptor alpha3(P185L), resulting in high agonist potency.

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