PMID: 8606361Nov 1, 1995Paper

Characterization of the G protein coupling of SRIF and beta-adrenergic receptors to the maxi KCa channel in insulin-secreting cells

The Journal of Membrane Biology
B Ribalet, G T Eddlestone

Abstract

Modulation of the Ca- and voltage-dependent K channel--KCa--by receptors coupled to the G proteins G(i)/G(o) and Gs has been studied in insulin-secreting cells using the patch clamp technique. In excised outside-out patches somatostatin (somatotropin-releasing inhibitory factor; SRIF) caused concentration-dependent inhibition of the KCa channel, an effect that was prevented by pertussis toxin (PTX). In inside-out patches, exogenous alpha subunits of either G(i)- or G(o)-type G proteins also inhibited the KCa channel (IC50 5.9 and 5.7 pM, respectively). These data indicate that SRIF suppresses KCa channel activity via a membrane-delimited pathway that involves the alpha subunits of PTX-sensitive G proteins G(i) and/or G(o). In outside-out patches, activation of Gs either by beta-agonists or with cholera toxin (CTX) increased KCa channel activity, consistent with a membrane-delimited stimulatory pathway linking the beta-adrenergic receptor to the KCa channel via Gs. In outside-out patches, channel inhibition by SRIF suppressed the stimulatory effect of beta-agonists but not that of CTX, while in inside-out patches CTX reversed channel inhibition induced by exogenous alpha i or alpha o. Taken together these data suggest that KCa c...Continue Reading

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