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G protein-regulated endocytic trafficking of adenylyl cyclase type 9

André M Lazar, Roshanak Irannejad, Tanya A. Baldwin, Aparna Sundaram, J. Silvio Gutkind, Asuka Inoue, Carmen Dessauer, Mark von Zastrow

2020eLife60 citationsDOIOpen Access PDF

Abstract

GPCRs are increasingly recognized to initiate signaling via heterotrimeric G proteins as they move through the endocytic network, but little is known about how relevant G protein effectors are localized. Here we report selective trafficking of adenylyl cyclase type 9 (AC9) from the plasma membrane to endosomes while adenylyl cyclase type 1 (AC1) remains in the plasma membrane, and stimulation of AC9 trafficking by ligand-induced activation of Gs-coupled GPCRs. AC9 transits a similar, dynamin-dependent early endocytic pathway as ligand-activated GPCRs. However, unlike GPCR traffic control which requires β-arrestin but not Gs, AC9 traffic control requires Gs but not β-arrestin. We also show that AC9, but not AC1, mediates cAMP production stimulated by endogenous receptor activation in endosomes. These results reveal dynamic and isoform-specific trafficking of adenylyl cyclase in the endocytic network, and a discrete role of a heterotrimeric G protein in regulating the subcellular distribution of a relevant effector.

Topics & Concepts

Heterotrimeric G proteinGs alpha subunitAdenylyl cyclaseEndocytic cycleEndosomeG protein-coupled receptorG proteinCell biologyBiologyADCY9cAMP-dependent pathwayGi alpha subunitADCY10ReceptorEndocytosisSignal transductionBiochemistryIntracellularReceptor Mechanisms and SignalingCellular transport and secretionPancreatic function and diabetes
G protein-regulated endocytic trafficking of adenylyl cyclase type 9 | Litcius