阿尔法羟基酮结合于 α1β3γ2γ-氨基丁酸 A 型受体的跨膜内侧β+ -α- 界面。
Alphaxalone Binds in Inner Transmembrane β+-α- Interfaces of α1β3γ2 γ-Aminobutyric Acid Type A Receptors.
机构信息
From the Department of Anesthesia, Critical Care, and Pain Medicine, Massachusetts General Hospital, Boston, Massachusetts. Current affiliations: Department of Biomedical Engineering, Rensselaer Polytechnic Institute, Troy, New York (A.M.Z.); School of Medicine, Case Western Reserve University, Cleveland, Ohio (A.S.); Department of Biology, Brandeis University, Waltham, Massachusetts (M.H.); Keck School of Medicine, University of Southern California, Los Angeles, California (A.T.S.); and Harvard Medical School, Boston, Massachusetts (A.N.).
出版信息
Anesthesiology. 2018 Feb;128(2):338-351. doi: 10.1097/ALN.0000000000001978.
BACKGROUND
Neurosteroids like alphaxalone are potent anxiolytics, anticonvulsants, amnestics, and sedative-hypnotics, with effects linked to enhancement of γ-aminobutyric acid type A (GABAA) receptor gating in the central nervous system. Data locating neurosteroid binding sites on synaptic αβγ GABAA receptors are sparse and inconsistent. Some evidence points to outer transmembrane β-α interfacial pockets, near sites that bind the anesthetics etomidate and propofol. Other evidence suggests that steroids bind more intracellularly in β-α interfaces.
METHODS
The authors created 12 single-residue β3 cysteine mutations: β3T262C and β3T266C in β3-M2; and β3M283C, β3Y284C, β3M286C, β3G287C, β3F289C, β3V290C, β3F293C, β3L297C, β3E298C, and β3F301C in β3-M3 helices. The authors coexpressed α1 and γ2L with each mutant β3 subunit in Xenopus oocytes and electrophysiologically tested each mutant for covalent sulfhydryl modification by the water-soluble reagent para-chloromercuribenzenesulfonate. Then, the authors assessed whether receptor-bound alphaxalone, etomidate, or propofol blocked cysteine modification, implying steric hindrance.
RESULTS
Eleven mutant β3 subunits, when coexpressed with α1 and γ2L, formed functional channels that displayed varied sensitivities to the three anesthetics. Exposure to para-chloromercuribenzenesulfonate produced irreversible functional changes in ten mutant receptors. Protection by alphaxalone was observed in receptors with β3V290C, β3F293C, β3L297C, or β3F301C mutations. Both etomidate and propofol protected receptors with β3M286C or β3V290C mutations. Etomidate also protected β3F289C. In α1β3γ2L structural homology models, all these protected residues are located in transmembrane β-α interfaces.
CONCLUSIONS
Alphaxalone binds in transmembrane β-α pockets of synaptic GABAA receptors that are adjacent and intracellular to sites for the potent anesthetics etomidate and propofol.
背景
神经甾体如阿尔法羟孕酮是有效的抗焦虑药、抗惊厥药、失忆药和镇静催眠药,其作用与增强中枢神经系统 γ-氨基丁酸 A 型 (GABAA) 受体门控有关。神经甾体结合位点在突触 αβγ GABAA 受体上的数据稀少且不一致。一些证据指向位于结合麻醉剂依托咪酯和异丙酚的部位附近的外跨膜 β-α 界面袋。其他证据表明,甾体在 β-α 界面的更内侧结合。
方法
作者创建了 12 个单个残基 β3 半胱氨酸突变:β3-M2 中的 β3T262C 和 β3T266C;以及β3-M3 螺旋中的 β3M283C、β3Y284C、β3M286C、β3G287C、β3F289C、β3V290C、β3F293C、β3L297C、β3E298C 和 β3F301C。作者在非洲爪蟾卵母细胞中共表达 α1 和 γ2L 与每个突变 β3 亚基,并用电生理学方法测试每个突变体对水溶性试剂对氯汞苯甲酸的共价巯基修饰的易感性。然后,作者评估了与受体结合的阿尔法羟孕酮、依托咪酯或异丙酚是否阻断半胱氨酸修饰,暗示空间位阻。
结果
当与 α1 和 γ2L 共表达时,11 个突变的 β3 亚基形成了功能性通道,这些通道对三种麻醉剂表现出不同的敏感性。暴露于对氯汞苯甲酸会导致十个突变体受体的不可逆功能改变。在具有 β3V290C、β3F293C、β3L297C 或 β3F301C 突变的受体中观察到阿尔法羟孕酮的保护作用。依托咪酯和异丙酚都保护具有 β3M286C 或 β3V290C 突变的受体。依托咪酯还保护 β3F289C。在 α1β3γ2L 结构同源模型中,所有这些受保护的残基都位于跨膜 β-α 界面。
结论
阿尔法羟孕酮结合在突触 GABAA 受体的跨膜 β-α 口袋中,这些口袋与强效麻醉剂依托咪酯和异丙酚的结合部位相邻且位于细胞内。
Zotero 插件