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The ARRIVE guidelines 2.0: Updated guidelines for reporting animal research.ARRIVE 指南 2.0:报告动物研究的更新指南。
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ARRIVE 2.0 and the British Journal of Pharmacology: Updated guidance for 2020.ARRIVE 2.0与《英国药理学期刊》:2020年更新指南
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Competitive Antagonism of Etomidate Action by Diazepam: In Vitro GABAA Receptor and In Vivo Zebrafish Studies.地西泮对依托咪酯作用的竞争性拮抗作用:体外 GABA A 受体和体内斑马鱼研究。
Anesthesiology. 2020 Sep;133(3):583-594. doi: 10.1097/ALN.0000000000003403.
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THE CONCISE GUIDE TO PHARMACOLOGY 2019/20: Ion channels.《药理学 2019/20 简明指南:离子通道》
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Flumazenil-insensitive benzodiazepine binding sites in GABA receptors contribute to benzodiazepine-induced immobility in zebrafish larvae.GABA 受体中氟马西尼不敏感的苯二氮䓬结合位点有助于斑马鱼幼体中苯二氮䓬诱导的不动性。
Life Sci. 2019 Dec 15;239:117033. doi: 10.1016/j.lfs.2019.117033. Epub 2019 Nov 4.
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A structural perspective on GABA receptor pharmacology.从结构角度看 GABA 受体药理学。
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Zebrafish Larvae as a Behavioral Model in Neuropharmacology.斑马鱼幼体作为神经药理学中的行为模型
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Monod-Wyman-Changeux Allosteric Shift Analysis in Mutant 132L GABA Receptors Indicates Selectivity and Crosstalk among Intersubunit Transmembrane Anesthetic Sites.突变体 132L GABA 受体的 Monod-Wyman-Changeux 变构位移分析表明跨亚基跨膜麻醉位点的选择性和串扰。
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苯二氮䓬类药物在 GABA 受体跨膜麻醉结合部位的选择性作用:体外和体内研究。

Selective actions of benzodiazepines at the transmembrane anaesthetic binding sites of the GABA receptor: In vitro and in vivo studies.

机构信息

Department of Anesthesia, Critical Care, and Pain Medicine, Massachusetts General Hospital, Boston, Massachusetts, USA.

出版信息

Br J Pharmacol. 2021 Dec;178(24):4842-4858. doi: 10.1111/bph.15662. Epub 2021 Sep 26.

DOI:10.1111/bph.15662
PMID:34386973
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8637433/
Abstract

BACKGROUND AND PURPOSE

In addition to binding to the classical high-affinity extracellular benzodiazepine binding site of the GABA receptor, some benzodiazepines occupy transmembrane inter-subunit anaesthetic sites that bind etomidate (β /α sites) or the barbiturate derivative R-mTFD-MPAB (α /β and γ /β sites). We aimed to define the functional effects of these interactions on GABA receptor activity and animal behaviour.

EXPERIMENTAL APPROACH

With flumazenil blocking classical high-affinity extracellular benzodiazepine site effects, modulation of GABA-activated currents by diazepam, midazolam and flurazepam was measured electrophysiologically in wildtype and M2-15' mutant α β γ GABA receptors. Zebrafish locomotive activity was also assessed in the presence of each benzodiazepine plus flumazenil.

KEY RESULTS

In the presence of flumazenil, micromolar concentrations of diazepam and midazolam both potentiated and inhibited wildtype GABA receptor currents. β N265M (M2-15' in the β /α sites) and α S270I (M2-15' in the α /β site) mutations reduced or abolished potentiation by these drugs. In contrast, the γ S280W mutation (M2-15' in the γ /β site) abolished inhibition. Flurazepam plus flumazenil only inhibited wildtype receptor currents, an effect unaltered by M2-15' mutations. In the presence of flumazenil, zebrafish locomotion was enhanced by diazepam at concentrations up to 30 μM and suppressed at 100 μM, suppressed by midazolam and enhanced by flurazepam.

CONCLUSIONS AND IMPLICATIONS

Benzodiazepine binding to transmembrane anaesthetic binding sites of the GABA receptor can produce positive or negative modulation manifesting as decreases or increases in locomotion, respectively. Selectivity for these sites may contribute to the distinct GABA receptor and behavioural actions of different benzodiazepines, particularly at high (i.e. anaesthetic) concentrations.

摘要

背景与目的

除了与 GABA 受体的经典高亲和力细胞外苯二氮䓬结合位点结合外,一些苯二氮䓬还占据跨膜亚基麻醉结合位点,这些结合位点结合依托咪酯(β/α 位点)或巴比妥酸衍生物 R-mTFD-MPAB(α/β 和 γ/β 位点)。我们旨在确定这些相互作用对 GABA 受体活性和动物行为的功能影响。

实验方法

用氟马西尼阻断经典高亲和力细胞外苯二氮䓬结合位点的作用,用电生理方法测量氟马西尼、地西泮和氟硝西泮对野生型和 M2-15' 突变体 αβγ GABA 受体激活的 GABA 电流的调制。还评估了每种苯二氮䓬加氟马西尼存在时斑马鱼的运动活动。

主要结果

在氟马西尼存在的情况下,微摩尔浓度的地西泮和咪达唑仑都能增强和抑制野生型 GABA 受体电流。βN265M(β/α 位点的 M2-15')和 αS270I(α/β 位点的 M2-15')突变减少或消除了这些药物的增强作用。相比之下,γS280W 突变(γ/β 位点的 M2-15')消除了抑制作用。氟马西尼加氟马西尼仅抑制野生型受体电流,M2-15'突变未改变该作用。在氟马西尼存在的情况下,地西泮在高达 30 μM 的浓度下增强斑马鱼的运动,在 100 μM 时抑制运动,咪达唑仑抑制运动,氟马西尼增强运动。

结论和意义

苯二氮䓬与 GABA 受体跨膜麻醉结合位点的结合可产生正或负调制,表现为运动分别减少或增加。这些位点的选择性可能有助于不同苯二氮䓬对 GABA 受体和行为的不同作用,特别是在高(即麻醉)浓度下。