Sites of alcohol and volatile anaesthetic action on GABAA and glycine receptors

Mihic, S. John; Ye, Qing; Wick, Marilee J.; Koltchine, Vladimir V.; Krasowski, Matthew D.; Finn, Suzanne E.; Mascia, Maria Paola; Valenzuela, C. Fernando; Hanson, Kirsten K.; Greenblatt, Eric P.; Harris, R. Adron; Harrison, Neil L.

Sites of alcohol and volatile anaesthetic action on GABAA and glycine receptors

S. John Mihic, Qing Ye, Marilee J. Wick, Vladimir V. Koltchine, Matthew D. Krasowski, Suzanne E. Finn, Maria Paola Mascia, C. Fernando Valenzuela, Kirsten K. Hanson, Eric P. Greenblatt, R. Adron Harris and Neil L. Harrison ()
Additional contact information
S. John Mihic: University of Colorado Health Sciences Center
Qing Ye: The University of Chicago
Marilee J. Wick: University of Colorado Health Sciences Center
Vladimir V. Koltchine: The University of Chicago
Matthew D. Krasowski: The University of Chicago
Suzanne E. Finn: The University of Chicago
Maria Paola Mascia: University of Colorado Health Sciences Center
C. Fernando Valenzuela: University of Colorado Health Sciences Center
Kirsten K. Hanson: The University of Chicago
Eric P. Greenblatt: University of Pennsylvania
R. Adron Harris: University of Colorado Health Sciences Center
Neil L. Harrison: The University of Chicago

Nature, 1997, vol. 389, issue 6649, 385-389

Abstract: Abstract Volatile anaesthetics have historically been considered to act in a nonspecific manner on the central nervous system1,2. More recent studies, however, have revealed that the receptors for inhibitory neurotransmitters such as γ-aminobutyric acid (GABA) and glycine are sensitive to clinically relevant concentrations of inhaled anaesthetics3. The function of GABAA and glycine receptors is enhanced by a number of anaesthetics4,5,6,7,8,9 and alcohols10,11,12, whereas activity of the related13 GABA ρ1 receptor is reduced14. We have used this difference in pharmacology to investigate the molecular basis for modulation of these receptors by anaesthetics and alcohols. By using chimaeric receptor constructs, we have identified a region of 45 amino-acid residues that is both necessary and sufficient for the enhancement of receptor function. Within this region, two specific amino-acid residues in transmembrane domains 2 and 3 are critical for allosteric modulation of both GABAA and glycine receptors by alcohols and two volatile anaesthetics. These observations support the idea that anaesthetics exert a specific effect on these ion-channel proteins, and allow for the future testing of specific hypotheses of the action of anaesthetics.

Date: 1997
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DOI: 10.1038/38738

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