The neuronal calcium sensor NCS-1 regulates the phosphorylation state and activity of the Gα chaperone and GEF Ric-8A

Author:

Muñoz-Reyes DORCID,McClelland LJORCID,Arroyo-Urea SORCID,Sánchez-Yepes S,Sabín J,Pérez-Suárez S,Menéndez MORCID,Mansilla AORCID,García-Nafría JORCID,Sprang SRORCID,Sánchez-Barrena MJORCID

Abstract

AbstractThe Neuronal Calcium Sensor 1 and Ric-8A coregulate synapse number and probability of neurotransmitter release. Recently, the structures of Ric-8A bound to Gα have revealed how Ric-8A phosphorylation promotes Gα recognition and activity as a chaperone and guanine nucleotide exchange factor. However, the molecular mechanism by which NCS-1 regulates Ric-8A activity and its interaction with Gα subunits is not well understood. Given the interest in the NCS-1/Ric-8A complex as a therapeutic target in nervous system disorders, it is necessary to shed light on this molecular mechanism of action at atomic level. We have reconstituted NCS-1/Ric-8A complexes to conduct a multimodal approach and determine the sequence of Ca2+signals and phosphorylation events that promote the interaction of Ric-8A with Gα. Our data show that the binding of NCS-1 and Gα to Ric-8A are mutually exclusive. Importantly, NCS-1 induces a profound structural rearrangement in Ric-8A that traps the protein in a conformational state that is inaccessible to Casein Kinase II-mediated phosphorylation, demonstrating one aspect of its negative regulation of Ric-8A-mediated G-protein signaling. Functional experiments indicate a loss of Ric-8A GEF activity towards Gα when complexed with NCS-1, and restoration of nucleotide exchange activity upon increasing Ca2+concentration. Finally, the high-resolution crystallographic data reported here that define the NCS-1/Ric-8A interface will allow the development of therapeutic synapse function regulators with improved activity and selectivity.

Publisher

Cold Spring Harbor Laboratory

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