Gβγ-dependent and Gβγ-independent basal activity of G protein-activated K+ channels

Ida Rishal, Yuri Porozov, Daniel Yakubovich, Dalia Varon, Nathan Dascal

Research output: Contribution to journalArticlepeer-review

48 Scopus citations

Abstract

Cardiac and neuronal G protein-activated K+ channels (GIRK; Kir3) open following the binding of Gβγ subunits, released from Gi/o proteins activated by neurotransmitters. GIRKs also possess basal activity contributing to the resting potential in neurons. It appears to depend largely on free Gβγ, but a Gβγ-independent component has also been envisaged. We investigated Gβγ dependence of the basal GIRK activity (AGIRK,basal) quantitatively, by titrated expression of Gβγ scavengers, in Xenopus oocytes expressing GIRK1/2 channels and muscarinic m2 receptors. The widely used Gβγ scavenger, myristoylated C terminus of β-adrenergic kinase (m-cβARK), reduced AGIRK,basal by 70-80% and eliminated the acetylcholine-evoked current (IACh). However, we found that m-cβARK directly binds to GIRK, complicating the interpretation of physiological data. Among several newly constructed Gβγ scavengers, phosducin with an added myristoylation signal (m-phosducin) was most efficient in reducing GIRK currents, m-phosducin relocated to the membrane fraction and did not bind GIRK. Titrated expression of m-phosducin caused a reduction of AGIRK,basal by up to 90%. Expression of GIRK was accompanied by an increase in the level of Gβγ and Gα in the plasma membrane, supporting the existence of preformed complexes of GIRK with G protein subunits. Increased expression of Gβγ and its constitutive association with GIRK may underlie the excessively high AGIRK,basal observed at high expression levels of GIRK. Only 10-15% of AGIRK,basal persisted upon expression of both m-phosducin and cβARK. These results demonstrate that a major part of Ibasal is Gβγ-dependent at all levels of channel expression, and only a small fraction (<10%) may be Gβγ- independent.

Original languageEnglish
Pages (from-to)16685-16694
Number of pages10
JournalJournal of Biological Chemistry
Volume280
Issue number17
DOIs
StatePublished - 29 Apr 2005
Externally publishedYes

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