Gαq activation modulates autophagy by promoting mTORC1 signaling.

Cabezudo, Sofía; Sanz-Flores, Maria; Caballero, Alvaro; Tasset, Inmaculada; Rebollo, Elena; Diaz, Antonio; Aragay, Anna M; Cuervo, Ana María; Mayor, Federico; Ribas, Catalina

Publication:
Gαq activation modulates autophagy by promoting mTORC1 signaling.

dc.contributor.author	Cabezudo, Sofía
dc.contributor.author	Sanz-Flores, Maria
dc.contributor.author	Caballero, Alvaro
dc.contributor.author	Tasset, Inmaculada
dc.contributor.author	Rebollo, Elena
dc.contributor.author	Diaz, Antonio
dc.contributor.author	Aragay, Anna M
dc.contributor.author	Cuervo, Ana María
dc.contributor.author	Mayor, Federico
dc.contributor.author	Ribas, Catalina
dc.contributor.funder	Ministerio de Economía, Industria y Competitividad (España)
dc.contributor.funder	Instituto de Salud Carlos III
dc.contributor.funder	Unión Europea. Fondo Europeo de Desarrollo Regional (FEDER/ERDF)
dc.date.accessioned	2021-08-27T10:45:53Z
dc.date.available	2021-08-27T10:45:53Z
dc.date.issued	2021-07-27
dc.description.abstract	The mTORC1 node plays a major role in autophagy modulation. We report a role of the ubiquitous Gαq subunit, a known transducer of plasma membrane G protein-coupled receptors signaling, as a core modulator of mTORC1 and autophagy. Cells lacking Gαq/11 display higher basal autophagy, enhanced autophagy induction upon different types of nutrient stress along with a decreased mTORC1 activation status. They are also unable to reactivate mTORC1 and thus inactivate ongoing autophagy upon nutrient recovery. Conversely, stimulation of Gαq/11 promotes sustained mTORC1 pathway activation and reversion of autophagy promoted by serum or amino acids removal. Gαq is present in autophagic compartments and lysosomes and is part of the mTORC1 multi-molecular complex, contributing to its assembly and activation via its nutrient status-sensitive interaction with p62, which displays features of a Gαq effector. Gαq emerges as a central regulator of the autophagy machinery required to maintain cellular homeostasis upon nutrient fluctuations.	es_ES
dc.description.peerreviewed	Sí	es_ES
dc.description.sponsorship	We thank Paula Ramos, Susana Rojo-Berciano, and Laura López for helpful technicalassistance. Dr. Marta Cruces (Universidad Autónoma de Madrid, Spain) for herinvaluable help regarding the liver explants experiments, Dr. Badford Berk (University ofRochester, NY, USA) for providing the GFP-Flag-PB1-p62 plasmid, Drs. Stefan Offer-manns and Nina Wettschureck (Max-Planck-Institute for Heart and Lung Research,Germany) for providing Tie2-CreERT2; Gnaq f/f; Gna11−/−[EC-q/11-KO) mice, andDr. Guzmán Sánchez for scientific advice. We thank also Ricardo Ramos from theGenomic facility of Fundación Parque Científico de Madrid (Universidad Autónoma deMadrid, Spain) and Gemma Rodríguez-Tarduchy from the Genomic facility of theInstituto de Investigaciones Biomédicas“Alberto Sols”for their help with cell linesauthentication. The help from CBMSO Animal Care, Flow Cytometry, Electron andOptical and Confocal Microscopy facilities is also acknowledged. This work was sup-ported by Ministerio de Economía; Industria y Competitividad (MINECO) of Spain(grant SAF2017-84125-R to F.M.), (grant BFU2017-83379-R to A.M.A.), Instituto deSalud Carlos III (PI18/01662 to CR, co-funded with European FEDER contribution),CIBERCV-Instituto de Salud Carlos III, Spain (grant CB16/11/00278 to F.M., co-fundedwith European FEDER contribution), Fundación Ramón Areces (to C.R. and F.M.) andPrograma de Actividades en Biomedicina de la Comunidad de Madrid-B2017/BMD-3671-INFLAMUNE to F.M. and NIH grants AG021904 and AG038072 to A.M.C. Wealso acknowledge the support of a Contrato para la Formación del Profesorado Uni-versitario (FPU13/04341) and (FPU14/06670), an EMBO short-term fellowship (ASTF600-2016). We also acknowledge institutional support to the CBMSO from FundaciónRamón Areces.	es_ES
dc.format.number	1	es_ES
dc.format.page	4540	es_ES
dc.format.volume	12	es_ES
dc.identifier.citation	Nat Commun.2021;12(1):4540.	es_ES
dc.identifier.doi	10.1038/s41467-021-24811-4	es_ES
dc.identifier.e-issn	2041-1723	es_ES
dc.identifier.journal	Nature communications	es_ES
dc.identifier.pubmedID	34315875	es_ES
dc.identifier.uri	http://hdl.handle.net/20.500.12105/13322
dc.language.iso	eng	es_ES
dc.publisher	Nature Publishing Group
dc.relation.projectFIS	info:eu-repo/grantAgreement/ES/SAF2017-84125-R	es_ES
dc.relation.projectFIS	info:eu-repo/grantAgreement/ES/PI18/01662	es_ES
dc.relation.publisherversion	https://doi.org/10.1038/s41467-021-24811-4.	es_ES
dc.repisalud.institucion	CNIO	es_ES
dc.repisalud.orgCNIO	CNIO::Grupos de investigación::Grupo de Biología Computacional Estructural	es_ES
dc.rights.accessRights	open access	es_ES
dc.rights.license	Atribución-NoComercial-CompartirIgual 4.0 Internacional	*
dc.rights.uri	http://creativecommons.org/licenses/by-nc-sa/4.0/	*
dc.subject.mesh	Autophagy	es_ES
dc.subject.mesh	Signal Transduction	es_ES
dc.subject.mesh	Animals	es_ES
dc.subject.mesh	CHO Cells	es_ES
dc.subject.mesh	Cricetulus	es_ES
dc.subject.mesh	Fibroblasts	es_ES
dc.subject.mesh	GTP-Binding Protein alpha Subunits, Gq-G11	es_ES
dc.subject.mesh	HEK293 Cells	es_ES
dc.subject.mesh	Humans	es_ES
dc.subject.mesh	Lysosomes	es_ES
dc.subject.mesh	Male	es_ES
dc.subject.mesh	Mechanistic Target of Rapamycin Complex 1	es_ES
dc.subject.mesh	Mice	es_ES
dc.subject.mesh	Models, Biological	es_ES
dc.subject.mesh	Phenotype	es_ES
dc.subject.mesh	Protein Binding	es_ES
dc.subject.mesh	Protein Domains	es_ES
dc.subject.mesh	Rats, Wistar	es_ES
dc.subject.mesh	Regulatory-Associated Protein of mTOR	es_ES
dc.subject.mesh	Sequestosome-1 Protein	es_ES
dc.title	Gαq activation modulates autophagy by promoting mTORC1 signaling.	es_ES
dc.type	journal article	es_ES
dc.type.hasVersion	VoR	es_ES
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