γ-氨基丁酸（GABA）通过突触前GABAB受体和TASK-1介导大鼠颈动脉体中的自身受体反馈抑制。

GABA mediates autoreceptor feedback inhibition in the rat carotid body via presynaptic GABAB receptors and TASK-1.

作者信息

Fearon Ian M, Zhang Min, Vollmer Cathy, Nurse Colin A

机构信息

Department of Biology, McMaster University, 1280 Main Street West, Hamilton, Ontario L8S 4K1, Canada.

出版信息

J Physiol. 2003 Nov 15;553(Pt 1):83-94. doi: 10.1113/jphysiol.2003.048298. Epub 2003 Aug 29.

DOI:10.1113/jphysiol.2003.048298

PMID:12949228

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2343478/

Abstract

Background K+ channels exert control over neuronal excitability by regulating resting potential and input resistance. Here, we show that GABAB receptor-mediated activation of a background K+ conductance modulates transmission at rat carotid body chemosensory synapses in vitro. Carotid body chemoreceptor (type I) cells expressed GABAB(1) and GABAB(2) subunits as well as endogenous GABA. The GABAB receptor agonist baclofen activated an anandamide- and Ba2+-sensitive TASK-1-like background K+ conductance in chemoreceptor cell clusters, but was without effect on voltage-gated Ca2+ channels. Hydroxysaclofen (50 microM), 5-aminovaleric acid (100 microM) and CGP 55845 (100 nM), selective GABAB receptor blockers, potentiated the hypoxia-induced receptor potential; this effect was abolished by pre-treatment with pertussis toxin (PTX; 500 ng ml-1), an inhibitor of Gi, or by H-89 (50 microM), a selective inhibitor of protein kinase A. The protein kinase C inhibitor chelerythrine chloride (100 microM) was without effect on this potentiation. GABAB receptor blockers also caused depolarisation of type I cells in clusters, and enhanced spike discharge in spontaneously firing cells. In functional co-cultures of type I clusters and petrosal sensory neurones, GABAB receptor blockers potentiated hypoxia-induced postsynaptic chemosensory responses mediated by the fast-acting transmitters ACh and ATP. Thus GABAB receptor-mediated activation of TASK-1 or a related channel provides a presynaptic autoregulatory feedback mechanism that modulates fast synaptic transmission in the rat carotid body.

摘要

背景

钾离子通道通过调节静息电位和输入电阻来控制神经元的兴奋性。在此，我们表明GABAB受体介导的背景钾离子电导激活在体外调节大鼠颈动脉体化学感受突触的传递。颈动脉体化学感受器（I型）细胞表达GABAB(1)和GABAB(2)亚基以及内源性GABA。GABAB受体激动剂巴氯芬激活化学感受器细胞簇中一种对花生四烯乙醇胺和Ba2+敏感的类似TASK-1的背景钾离子电导，但对电压门控钙离子通道无影响。选择性GABAB受体阻滞剂羟氯芬（50微摩尔）、5-氨基戊酸（100微摩尔）和CGP 55845（100纳摩尔）增强了低氧诱导的感受器电位；百日咳毒素（PTX；500纳克/毫升）（一种Gi抑制剂）或蛋白激酶A的选择性抑制剂H-89（50微摩尔）预处理可消除这种效应。蛋白激酶C抑制剂氯化白屈菜红碱（100微摩尔）对这种增强作用无影响。GABAB受体阻滞剂还导致细胞簇中I型细胞去极化，并增强自发放电细胞的动作电位发放。在I型细胞簇与岩神经节感觉神经元的功能性共培养中，GABAB受体阻滞剂增强了由快速作用递质乙酰胆碱和ATP介导的低氧诱导的突触后化学感受反应。因此，GABAB受体介导的TASK-1或相关通道的激活提供了一种突触前自动调节反馈机制，可调节大鼠颈动脉体中的快速突触传递。

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