抑制校正导致戊巴比妥对α1β3γ2L GABAA受体的变构协同激动剂模型及激活作用。

Correction for Inhibition Leads to an Allosteric Co-Agonist Model for Pentobarbital Modulation and Activation of α1β3γ2L GABAA Receptors.

作者信息

Ziemba Alexis M, Forman Stuart A

机构信息

Department of Anesthesia Critical Care & Pain Medicine, Massachusetts General Hospital, Boston, MA 02114, United States of America.

出版信息

PLoS One. 2016 Apr 25;11(4):e0154031. doi: 10.1371/journal.pone.0154031. eCollection 2016.

DOI:10.1371/journal.pone.0154031

PMID:27110714

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4844112/

Abstract

BACKGROUND

Pentobarbital, like propofol and etomidate, produces important general anesthetic effects through GABAA receptors. Photolabeling also indicates that pentobarbital binds to some of the same sites where propofol and etomidate act. Quantitative allosteric co-agonist models for propofol and etomidate account for modulatory and agonist effects in GABAA receptors and have proven valuable in establishing drug site characteristics and for functional analysis of mutants. We therefore sought to establish an allosteric co-agonist model for pentobarbital activation and modulation of α1β3γ2L receptors, using a novel approach to first correct pentobarbital activation data for inhibitory effects in the same concentration range.

METHODS

Using oocyte-expressed α1β3γ2L GABAA receptors and two-microelectrode voltage-clamp, we quantified modulation of GABA responses by a low pentobarbital concentration and direct effects of high pentobarbital concentrations, the latter displaying mixed agonist and inhibitory effects. We then isolated and quantified pentobarbital inhibition in activated receptors using a novel single-sweep "notch" approach, and used these results to correct steady-state direct activation for inhibition.

RESULTS

Combining results for GABA modulation and corrected direct activation, we estimated receptor open probability and optimized parameters for a Monod-Wyman-Changeux allosteric co-agonist model. Inhibition by pentobarbital was consistent with two sites with IC50s near 1 mM, while co-agonist model parameters suggest two allosteric pentobarbital agonist sites characterized by KPB ≈ 5 mM and high efficacy. The results also indicate that pentobarbital may be a more efficacious agonist than GABA.

CONCLUSIONS

Our novel approach to quantifying both inhibitory and co-agonist effects of pentobarbital provides a basis for future structure-function analyses of GABAA receptor mutations in putative pentobarbital binding sites.

摘要

背景

戊巴比妥与丙泊酚和依托咪酯一样，通过GABAA受体产生重要的全身麻醉作用。光标记还表明戊巴比妥与丙泊酚和依托咪酯作用的一些相同位点结合。丙泊酚和依托咪酯的定量变构协同激动剂模型解释了GABAA受体中的调节和激动剂作用，并已被证明在确定药物位点特征和突变体功能分析方面具有价值。因此，我们试图建立一种戊巴比妥激活和调节α1β3γ2L受体的变构协同激动剂模型，采用一种新方法首先校正戊巴比妥在相同浓度范围内的抑制作用对激活数据的影响。

方法

使用卵母细胞表达的α1β3γ2L GABAA受体和双微电极电压钳，我们量化了低浓度戊巴比妥对GABA反应的调节以及高浓度戊巴比妥的直接作用，后者表现出混合激动剂和抑制作用。然后，我们使用一种新的单扫描“缺口”方法分离并量化了激活受体中的戊巴比妥抑制作用，并使用这些结果校正稳态直接激活以消除抑制作用。

结果

结合GABA调节和校正后的直接激活结果，我们估计了受体开放概率，并优化了莫诺德-怀曼-尚热变构协同激动剂模型的参数。戊巴比妥的抑制作用与两个IC50接近1 mM的位点一致，而协同激动剂模型参数表明有两个变构戊巴比妥激动剂位点，其特征为KPB≈5 mM且效能高。结果还表明戊巴比妥可能是比GABA更有效的激动剂。

结论

我们量化戊巴比妥抑制和协同激动剂作用的新方法为未来对假定戊巴比妥结合位点的GABAA受体突变进行结构-功能分析提供了基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f37f/4844112/7fd18aedb1d2/pone.0154031.g001.jpg

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抑制校正导致戊巴比妥对α1β3γ2L GABAA受体的变构协同激动剂模型及激活作用。

Correction for Inhibition Leads to an Allosteric Co-Agonist Model for Pentobarbital Modulation and Activation of α1β3γ2L GABAA Receptors.

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