Abstract
Propofol is a sedative and anesthetic agent that can both activate GABAA receptors and potentiate receptor activation elicited by submaximal concentrations of the transmitter. A recent modeling study of the β3 homomeric GABAA receptor postulated a high-affinity propofol binding site in a hydrophobic pocket in the middle of a triangular cleft lined by the M1 and M2 membrane-spanning domains of one subunit and the M2 domain of the neighboring subunit. The goal of the present study was to gain functional evidence for the involvement of this pocket in the actions of propofol. Human β3 and α1β3 receptors were expressed in Xenopus oocytes, and the effects of substitutions of selected residues were probed on channel activation by propofol and pentobarbital. The data demonstrate the vital role of the β3(Y143), β3(F221), β3(Q224), and β3(T266) residues in the actions of propofol but not pentobarbital in β3 receptors. The effects of β3(Y143W) and β3(Q224W) on activation by propofol are likely steric because propofol analogs with less bulky ortho substituents activated both wild-type and mutant receptors. The T266W mutation removed activation by propofol in β3 homomeric receptors; however, this mutation alone or in combination with a homologous mutation (I271W) in the α1 subunit had almost no effect on activation properties in α1β3 heteromeric receptors. We hypothesize that heteromeric α1β3 receptors can be activated by propofol interactions with β3–β3, α1–β3, and β3–α1 interfaces, but the exact locations of the binding site and/or nature of interactions vary in different classes of interfaces.
Footnotes
- Received June 10, 2014.
- Accepted July 23, 2015.
This work was supported by the National Institutes of Health National Institute of General Medical Sciences [Grants R01-GM108580, R01-GM108799]; and the Taylor Family Institute for Innovative Psychiatric Research; and the Medical Research Council, UK [Grant G0901892].
- Copyright © 2015 by The American Society for Pharmacology and Experimental Therapeutics
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