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Gpr161 anchoring of PKA consolidates GPCR and cAMP signaling

by Röck, Ruth , Taylo, Susan S. , Ilouz, Ronit , Raffeiner, Philipp , Bachmann, Verena A. , Baillie, George S. , Stelzl, Ulrich , Stefan, Eduard , Tschaikner, Philipp , Apelt, Federico , Lu, Tsan-Wen , Aanstad, Pia , Courcelles, Mathieu , Mayrhofer, Johanna E. , Thibault, Pierre

in A Kinase Anchor Proteins - metabolism / Amino Acid Motifs / Amino Acid Sequence / Animals / Biochemistry / Biological Sciences / Cyclic AMP - metabolism / Cyclic AMP-Dependent Protein Kinase Type I - metabolism / Cytoplasm / HEK293 Cells / Humans / Luciferases, Renilla / Mice / Mutation / Phosphorylation / Proteins / Receptors, G-Protein-Coupled - metabolism / RNA-protein interactions / Zebrafish

2016

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Gpr161 anchoring of PKA consolidates GPCR and cAMP signaling

2016

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2016

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Journal Article

Gpr161 anchoring of PKA consolidates GPCR and cAMP signaling

Röck, Ruth,

Taylo, Susan S.,

Ilouz, Ronit,

Raffeiner, Philipp,

Bachmann, Verena A.,

Baillie, George S.,

Stelzl, Ulrich,

Stefan, Eduard,

Tschaikner, Philipp,

Apelt, Federico,

Lu, Tsan-Wen,

Aanstad, Pia,

Courcelles, Mathieu,

Mayrhofer, Johanna E.,

Thibault, Pierre

2016

Overview

Scaffolding proteins organize the information flow from activated G protein-coupled receptors (GPCRs) to intracellular effector cascades both spatially and temporally. By this means, signaling scaffolds, such as A-kinase anchoring proteins (AKAPs), compartmentalize kinase activity and ensure substrate selectivity. Using a phosphoproteomics approach we identified a physical and functional connection between protein kinase A (PKA) and Gpr161 (an orphan GPCR) signaling. We show that Gpr161 functions as a selective high-affinity AKAP for type I PKA regulatory subunits (RI). Using cell-based reporters to map protein–protein interactions, we discovered that RI binds directly and selectively to a hydrophobic protein–protein interaction interface in the cytoplasmic carboxyl-terminal tail of Gpr161. Furthermore, our data demonstrate that a binary complex between Gpr161 and RI promotes the compartmentalization of Gpr161 to the plasma membrane. Moreover, we show that Gpr161, functioning as an AKAP, recruits PKA RI to primary cilia in zebrafish embryos. We also show that Gpr161 is a target of PKA phosphorylation, and that mutation of the PKA phosphorylation site affects ciliary receptor localization. Thus, we propose that Gpr161 is itself an AKAP and that the cAMP-sensing Gpr161:PKA complex acts as cilium-compartmentalized signalosome, a concept that now needs to be considered in the analyzing, interpreting, and pharmaceutical targeting of PKA-associated functions.

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Publisher

National Academy of Sciences

Subject

A Kinase Anchor Proteins - metabolism

/ Amino Acid Motifs

/ Amino Acid Sequence

/ Animals

/ Biochemistry

/ Biological Sciences

/ Cyclic AMP - metabolism