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Vol. 60, Issue 2, 282-289, August 2001
Department for Anaesthesia and General Intensive Care
Medicine, University Hospital Vienna, Austria (L.G.W.); and Department
for Medical Physics and Biophysics, Graz University, Graz, Austria
(W.S.)
G protein-gated inwardly rectifying potassium channels (GIRKs) are a
family of homo- and hetero-oligomeric K+ channels composed
of different subunits (GIRK1 to 4 in mammals). GIRK4 and GIRK1 are
found mainly in the atrium, whereas neuronal cells predominantly
express the GIRK1, GIRK2, and GIRK3 isoforms. When activated, GIRK
channels slow the firing rate of atrial myocytes and neuronal cells.
Because of their key role in controlling excitability, we investigated
the influence of a prototypic anesthetic, halothane, on GIRK channels
of different subunit composition expressed in Xenopus
laevis oocytes. Halothane enhanced background currents through
hetero-oligomeric GIRK1/GIRK4 and homo-oligomeric
GIRK1F137S channels but not through homo-oligomeric GIRK2
channels. This activation of basal current did not depend on the
presence of coexpressed G protein-coupled receptors but instead
required the presence of G
/
. In contrast
to basal GIRK currents, the agonist-induced GIRK current (via
coexpressed m2 muscarinic receptors) was inhibited by
halothane. For GIRK1/GIRK4 and GIRK1F137S channels this
inhibition was most pronounced at low concentrations of the anesthetic
(0.1-0.3 mM) and occurred also when channels had been activated by
guanosine-5'-O-(3-thio)triphosphate. This inhibition,
however, was overridden by high concentrations of halothane (0.9 mM)
and augmentation of the agonist-induced current was observed. This
increase in agonist-induced current was never seen with GIRK2
homo-oligomeric channels. Agonist-induced currents mediated by GIRK2
channels were always inhibited by halothane with an IC50
value of approximately 60 µM. These data suggest a direct interaction
of halothane with GIRK channels.
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