Investigating the Putative Glycine Hinge in Shaker Potassium Channel

doi:10.1085/jgp.200509287

Published online 15 August 2005 doi:10.1085/jgp.200509287
The Rockefeller University Press, 0022-1295 $8.00
JGP, Volume 126, Number 3, 213-226

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ARTICLE

Investigating the Putative Glycine Hinge in Shaker Potassium Channel

Shinghua Ding, Lindsey Ingleby, Christopher A. Ahern, and Richard Horn

Department of Physiology, Institute of Hyperexcitability, Jefferson Medical College, Philadelphia, PA 19107

Correspondence to Richard Horn: Richard.Horn{at}jefferson.edu

The crystal structure of an open potassium channel reveals akink in the inner helix that lines the pore (Jiang, Y.X., A.Lee, J.Y. Chen, M. Cadene, B.T. Chait, and R. MacKinnon. 2002.Nature 417:523–526). The putative hinge point is a highlyconserved glycine residue. We examined the role of the homologousresidue (Gly466) in the S6 transmembrane segment of Shaker potassiumchannels. The nonfunctional alanine mutant G466A will assemble,albeit poorly, with wild-type (WT) subunits, suppressing functionalexpression. To test if this glycine residue is critical foractivation gating, we did a glycine scan along the S6 segmentin the background of G466A. Although all of these double mutantslack the higher-level glycosylation that is characteristic ofmature Shaker channels, one (G466A/V467G) is able to generatevoltage-dependent potassium current. Surface biotinylation showsthat functional and nonfunctional constructs containing G466Aexpress at comparable levels in the plasma membrane. Comparedwith WT channels, the shifted-glycine mutant has impairmentsin voltage-dependent channel opening, including a right-shiftedactivation curve and a decreased rate of activation. The doublemutant has relatively normal open-channel properties, exceptfor a decreased affinity for intracellular blockers, a consequenceof the loss of the side chain of Val467. Control experimentswith the double mutants M440A/G466A and G466A/V467A suggestthat the flexibility provided by Gly466 is more important forchannel function than its small size. Our results support rolesfor Gly466 both in biogenesis of the channel and as a hingein activation gating.

S. Ding's present address is Department of Neurosciences, Universityof Pennsylvania School of Medicine, 422 Johnson Pavilion, Philadelphia,PA 19104.

Abbreviations used in this paper: ERK, early response kinase;TBA, tetrabutylammonium; TPentA, tetrapentylammonium; WT, wild-type.

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