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  • Title: Receptor-specific regulation of atrial GIRK channel activity by different Ca2+-dependent PKC isoforms.
    Author: Niemeyer A, Rinne A, Kienitz MC.
    Journal: Cell Signal; 2019 Dec; 64():109418. PubMed ID: 31525436.
    Abstract:
    G Protein-activated K+ channels (GIRK) channels are inhibited by depletion of PtdIns(4,5)P2(PIP2), and/or channel phosphorylation by proteinkinase C (PKC). By using FRET-based biosensors, expressed in HEK293 cells or in atrial myocytes, we quantified receptor-specific Gq-coupled receptor (GqPCR) signalling on the level of phospholipase C (PLC) activation by monitoring PIP2-depletion and diacylglycerol (DAG) formation. Simultaneous voltage-clamp experiments on GIRK channel activity were performed as a functional readout for Gq-coupled α1B- and ET-receptor-induced signalling. GqPCR-induced fast inhibition of GIRK channel activity is mediated by depletion of PIP2, whereas phosphorylation of GIRK channels results in delayed, but effective GIRK current inhibition. We demonstrate a receptor-induced inhibitory component on GIRK activity that is independent of PIP2-depletion, but attributed to the activation of Ca2+-dependent PKC isoforms. As a novel finding, we demonstrate receptor-dependent differences in GIRK inhibition according to receptor-specific activation of the Ca2+-dependent PKC isoforms PKCα and PKCβ. Pharmacological inhibition of PKCα, but not of PKCβ, abolishes GIRK inhibition induced by stimulation of α1B-receptors. In contrast, ET-R-induced reduction of GIRK activity is sensitive to pharmacological block of PKCβ, but not of PKCα. Coexpression of α1B-receptors (or ETB-R) and PKCα (or PKCβ) in HEK 293 cells increased homologous receptor desensitization as indicated by a rapid decline of the CKAR FRET signal monitoring receptor activity. These data suggest that receptor-species dependent differences in PKC isoform activation regulate both GIRK channel activity and the strength of the receptor signal via a negative feedback mechanism.
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