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甘氨酸受体β亚基对含α2受体中乙醇的正变构调节作用。

Modulatory Actions of the Glycine Receptor β Subunit on the Positive Allosteric Modulation of Ethanol in α2 Containing Receptors.

作者信息

Muñoz Braulio, Mariqueo Trinidad, Murath Pablo, Peters Christian, Yevenes Gonzalo E, Moraga-Cid Gustavo, Peoples Robert W, Aguayo Luis G

机构信息

Laboratory of Neurophysiology, Department of Physiology, Universidad de Concepción, Concepción, Chile.

Laboratory of Neuropharmacology, Department of Physiology, Universidad de Concepción, Concepción, Chile.

出版信息

Front Mol Neurosci. 2021 Nov 18;14:763868. doi: 10.3389/fnmol.2021.763868. eCollection 2021.

DOI:10.3389/fnmol.2021.763868
PMID:34867189
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8637530/
Abstract

Alpha1-containing glycine receptors (GlyRs) are major mediators of synaptic inhibition in the spinal cord and brain stem. Recent studies reported the presence of α2-containing GlyRs in other brain regions, such as nucleus accumbens and cerebral cortex. GlyR activation decreases neuronal excitability associated with sensorial information, motor control, and respiratory functions; all of which are significantly altered during ethanol intoxication. We evaluated the role of β GlyR subunits and of two basic amino acid residues, K389 and R390, located in the large intracellular loop (IL) of the α2 GlyR subunit, which are important for binding and functional modulation by Gβγ, the dimer of the trimeric G protein conformation, using HEK-293 transfected cells combined with patch clamp electrophysiology. We demonstrate a new modulatory role of the β subunit on ethanol sensitivity of α2 subunits. Specifically, we found a differential allosteric modulation in homomeric α2 GlyRs compared with the α2β heteromeric conformation. Indeed, while α2 was insensitive, α2β GlyRs were substantially potentiated by ethanol, GTP-γ-S, propofol, Zn and trichloroethanol. Furthermore, a Gβγ scavenger (ct-GRK2) selectively attenuated the effects of ethanol on recombinant α2β GlyRs. Mutations in an α2 GlyR co-expressed with the β subunit (α2AAβ) specifically blocked ethanol sensitivity, but not propofol potentiation. These results show a selective mechanism for low ethanol concentration effects on homomeric and heteromeric conformations of α2 GlyRs and provide a new mechanism for ethanol pharmacology, which is relevant to upper brain regions where α2 GlyRs are abundantly expressed.

摘要

含α1的甘氨酸受体(GlyRs)是脊髓和脑干中突触抑制的主要介质。最近的研究报道,在其他脑区,如伏隔核和大脑皮层中存在含α2的GlyRs。GlyR激活可降低与感觉信息、运动控制和呼吸功能相关的神经元兴奋性;而在乙醇中毒期间,所有这些功能都会发生显著改变。我们利用转染了HEK-293细胞并结合膜片钳电生理学技术,评估了β GlyR亚基以及位于α2 GlyR亚基大细胞内环(IL)中的两个碱性氨基酸残基K389和R390的作用,这两个残基对于三聚体G蛋白构象的二聚体Gβγ的结合和功能调节很重要。我们证明了β亚基对α2亚基乙醇敏感性的新调节作用。具体而言,我们发现与α2β异源二聚体构象相比,同源α2 GlyRs存在差异变构调节。事实上,虽然α2不敏感,但α2β GlyRs会被乙醇、GTP-γ-S、丙泊酚、锌和三氯乙醇显著增强。此外,一种Gβγ清除剂(ct-GRK2)选择性地减弱了乙醇对重组α2β GlyRs的作用。与β亚基共表达的α2 GlyR中的突变(α2AAβ)特异性地阻断了乙醇敏感性,但不影响丙泊酚增强作用。这些结果显示了低乙醇浓度对α2 GlyRs同源和异源构象影响的选择性机制,并为乙醇药理学提供了一种新机制,这与α2 GlyRs大量表达的上脑区相关。

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