A Molecular Mechanism to Diversify Ca Signaling Downstream of Gs Protein-coupled Receptors

Overview

Journal Nat Commun

Specialty Biology

Date 2024 Sep 3

PMID 39227390

Authors

Julian Brands

Sergi Bravo

Lars Jurgenliemke

Lukas Gratz

Hannes Schihada

Fabian Frechen

Judith Alenfelder

Cy Pfeil

Paul Georg Ohse

Suzune Hiratsuka

Kouki Kawakami

Luna C Schmacke

Nina Heycke

Asuka Inoue

Gabriele Konig

Alexander Pfeifer

Dagmar Wachten

Gunnar Schulte

Torsten Steinmetzer

Val J Watts

Jesus Gomeza

Katharina Simon

Evi Kostenis

Affiliations

Soon will be listed here.

Abstract

A long-held tenet in inositol-lipid signaling is that cleavage of membrane phosphoinositides by phospholipase Cβ (PLCβ) isozymes to increase cytosolic Ca in living cells is exclusive to Gq- and Gi-sensitive G protein-coupled receptors (GPCRs). Here we extend this central tenet and show that Gs-GPCRs also partake in inositol-lipid signaling and thereby increase cytosolic Ca. By combining CRISPR/Cas9 genome editing to delete Gα, the adenylyl cyclase isoforms 3 and 6, or the PLCβ1-4 isozymes, with pharmacological and genetic inhibition of Gq and G11, we pin down Gs-derived Gβγ as driver of a PLCβ2/3-mediated cytosolic Ca release module. This module does not require but crosstalks with Gα-dependent cAMP, demands Gα to release PLCβ3 autoinhibition, but becomes Gq-independent with mutational disruption of the PLCβ3 autoinhibited state. Our findings uncover the key steps of a previously unappreciated mechanism utilized by mammalian cells to finetune their calcium signaling regulation through Gs-GPCRs.

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