Ligand-dependent Linkage of the ATP Site to Inhibition Gate Closure in the KATP Channel

doi:10.1085/jgp.200509289

Published online Aug 29 2005. doi:10.1085/jgp.200509289
The Rockefeller University Press, 0022-1295 $8.00
JGP, Volume 126, Number 3, 285-299

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ARTICLE

Ligand-dependent Linkage of the ATP Site to Inhibition Gate Closure in the K_ATP Channel

Lehong Li¹, Xuehui Geng¹, Michael Yonkunas², Anjey Su¹, Erik Densmore¹, Pei Tang², and Peter Drain¹

¹ Department of Cell Biology and Physiology, University of Pittsburgh School of Medicine, Pittsburgh, PA 15261
² Department of Pharmacology and Anesthesiology, University of Pittsburgh School of Medicine, Pittsburgh, PA 15261

Correspondence to Peter Drain: drain{at}pitt.edu

Major advances have been made on the inhibition gate and ATPsite of the K_ir6.2 subunit of the K_ATP channel, but little isknown about conformational coupling between the two. ATP sitemutations dramatically disrupt ATP-dependent gating withouteffect on ligand-independent gating, observed as interconversionsbetween active burst and inactive interburst conformations inthe absence of ATP. This suggests that linkage between siteand gate is conditionally dependent on ATP occupancy. We studiedall substitutions at position 334 of the ATP site in K_ir6.2 ${Delta}$ C26that express in Xenopus oocytes. All substitutions disruptedATP-dependent gating by 10-fold or more. Only positive-chargedarginine or lysine at 334, however, slowed ligand-independentgating from the burst, and this was in some but not all patches.Moreover, the polycationic peptide protamine reversed the slowedgating from the burst of 334R mutant channels, and speeded theslow gating from the burst of wild-type SUR1/K_ir6.2 in the absenceof ATP. Our results support a two-step ligand-dependent linkagemechanism for K_ir6.2 channels in which ATP-occupied sites functionto electrostatically dissociate COOH-terminal domains from themembrane, then as in all K_ir channels, free COOH-terminal domainsand inner M2 helices transit to a lower energy state for gateclosure.

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