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Identification of binding sites contributing to volatile anesthetic effects on GABA type A receptors
Author(s) -
Woll Kellie A.,
Zhou Xiaojuan,
Bhanu Natarajan V.,
Garcia Benjamin A.,
Covarrubias Manuel,
Miller Keith W.,
Eckenhoff Roderic G.
Publication year - 2018
Publication title -
the faseb journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.709
H-Index - 277
eISSN - 1530-6860
pISSN - 0892-6638
DOI - 10.1096/fj.201701347r
Subject(s) - gabaa receptor , chemistry , receptor , isoflurane , transmembrane domain , anesthetic , sevoflurane , protein subunit , binding site , biophysics , pharmacology , biochemistry , biology , anesthesia , medicine , organic chemistry , gene
Most general anesthetics enhance GABA type A (GABA A ) receptor activity at clinically relevant concentrations. Sites of action of volatile anesthetics on the GABA A receptor remain unknown, whereas sites of action of many intravenous anesthetics have been identified in GABA A receptors by using photolabeling. Here, we used photoactivatable analogs of isoflurane (AziISO) and sevoflurane (AziSEVO) to locate their sites on α 1 β 3 γ 2L and α 1 β 3 GABA A receptors. As with isoflurane and sevoflurane, AziISO and AziSEVO enhanced the currents elicited by GABA. AziISO and AziSEVO each labeled 10 residues in α 1 β 3 receptors and 9 and 8 residues, respectively, in α 1 β 3 γ 2L receptors. Photolabeled residues were concentrated in transmembrane domains and located in either subunit interfaces or in the interface between the extracellular domain and the transmembrane domain. The majority of these transmembrane residues were protected from photolabeling with the addition of excess parent anesthetic, which indicated specificity. Binding sites were primarily located within α+/β — and β+/α— subunit interfaces, but residues in the α+/γ— interface were also identified, which provided a basis for differential receptor subtype sensitivity. Isoflurane and sevoflurane did not always share binding sites, which suggests an unexpected degree of selectivity.—Woll, K. A., Zhou, X., Bhanu, N. V., Garcia, B. A., Covarrubias, M., Miller, K. W., Eckenhoff, R. G. Identification of binding sites contributing to volatile anesthetic effects on GABA type A receptors. FASEB J . 32, 4172–4189 (2018). www.fasebj.org

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