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J. Biol. Chem., Vol. 278, Issue 20, 18154-18161, May 16, 2003
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From the Voltage-gated potassium (Kv) channels containing
Structural Determinants of the Regulation of the Voltage-gated
Potassium Channel Kv2.1 by the Modulatory
-Subunit Kv9.3*
§¶,
, and**
Max-Planck Institut für Experimentelle
Medizin, Molekulare Biologie Neuronaler Signale, Hermann-Rein
Strasse 3, 37075 Göttingen, Germany, the
§ Neurologische Universitätsklinik,
Robert-Koch-Strasse 40, 37075 Göttingen, Germany, the
Centro Internacional de Fisica, Edificio Manuel Ancizar, Ciudad
Universitaria, AA4948 Bogotà, Colombia, and the
** Wellcome Laboratory for Molecular Pharmacology, University
College London, Gower Street, London, WC1E 6BT, United Kingdom
-subunits of the Kv2 subfamily mediate delayed rectifier currents in
excitable cells. Channels formed by Kv2.1 -subunits inactivate from
open- and closed states with both forms of inactivation serving
different physiological functions. Here we show that open- and
closed-state inactivation of Kv2.1 can be distinguished by the
sensitivity to intracellular tetraethylammonium and
extracellular potassium and lead to the same inactivated conformation.
The functional properties of Kv2.1 are regulated by its association
with modulatory -subunits (Kv5, Kv6, Kv8, and Kv9). For instance,
Kv9.3 changes the state preference of Kv2.1 inactivation by
accelerating closed-state inactivation and inhibiting open-state
inactivation. An N-terminal regulatory domain (NRD) has been suggested
to determine the function of the modulatory -subunit Kv8.1. However,
when we tested the NRD of Kv9.3, we found that the functional
properties of chimeric Kv2.1 channels containing the NRD of Kv9.3
(Kv2.1NRD) did not resemble those of Kv2.1/Kv9.3
heteromers, thus questioning the role of the NRD in Kv9 subunits. A
further region of interest is a PXP motif in the sixth
transmembrane segment. This motif is conserved among all -subunits
of the Kv1, Kv2, Kv3, and Kv4 subfamilies, whereas the second proline
is not conserved in any modulatory -subunit. Exchanging this proline
in Kv2.1 for the corresponding residue of Kv9.3 resulted in channels
(Kv2.1-P410T) that show all hallmarks of the regulation of Kv2.1 by
Kv9.3. The effect prevailed in heteromeric channels following
co-expression of Kv2.1-P410T with Kv2.1. These data suggest that the
alteration of the PXP motif is an important determinant of
the regulatory function of modulatory -subunits.
*
This work was supported by the Max-Planck Society and the
Wellcome Trust.The costs of publication of this
article were defrayed in part by the
payment of page charges. The article
must therefore be hereby marked
"advertisement" in
accordance with 18 U.S.C. Section
1734 solely to indicate this fact.
Wellcome Trust Senior Research Fellow.
Copyright © 2003 by The American Society for Biochemistry and Molecular Biology, Inc.
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