Activation gating kinetics of GIRK channels are mediated by cytoplasmic residues adjacent to transmembrane domains.

Rona Sadja*, Eitan Reuveny

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

8 Citations (Scopus)

Abstract

G-protein-coupled inwardly rectifying potassium channels (GIRK/Kir3.x) are involved in neurotransmission-mediated reduction of excitability. The gating mechanism following G protein activation of these channels likely proceeds from movement of inner transmembrane helices to allow K(+) ions movement through the pore of the channel. There is limited understanding of how the binding of G-protein betagamma subunits to cytoplasmic regions of the channel transduces the signal to the transmembrane regions. In this study, we examined the molecular basis that governs the activation kinetics of these channels, using a chimeric approach. We identified two regions as being important in determining the kinetics of activation. One region is the bottom of the outer transmembrane helix (TM1) and the cytoplasmic domain immediately adjacent (the slide helix); and the second region is the bottom of the inner transmembrane helix (TM2) and the cytoplasmic domain immediately adjacent. Interestingly, both of these regions are sufficient in mediating the kinetics of fast activation gating. This result suggests that there is a cooperative movement of either one of these domains to allow fast and efficient activation gating of GIRK channels.

Original languageEnglish
Pages (from-to)205-214
Number of pages10
JournalChannels
Volume3
Issue number3
DOIs
Publication statusPublished - 2009

Funding

Clore Foundation; Josef Cohn Center for Biomembrane Research; Israeli Science Foundation [128/05]; Minerva Foundation; Human Frontier Science ProgramThe authors like to thank Ruth Meller and Elisha Shalgi for technical help, members of the Reuveny laboratory members for helpful comments along the project. Dr. Craig Doupnik for the PTX resistant Ga' s, the work was supported in part by the Clore Foundation (to R. S.), Josef Cohn Center for Biomembrane Research, The Israeli Science Foundation (128/05), The Minerva Foundation and the Human Frontier Science Program.

All Science Journal Classification (ASJC) codes

  • Biophysics
  • Biochemistry

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