Caffeine intake exerts dual genome-wide effects on hippocampal metabolism and learning-dependent transcription

Paiva, Isabel; Cellai, Lucrezia; Meriaux, Céline; Poncelet, Lauranne; Nebie, Ouada; Saliou, Jean-Michel; Lacoste, Anne-Sophie; Papegaey, Anthony; Drobecq, Hervé; Le Gras, Stéphanie; Schneider, Marion; Malik, Enas M; Müller, Christa E.; Faivre, Emilie; Carvalho, Kevin; Gomez-Murcia, Victoria; Vieau, Didier; Thiroux, Bryan; Eddarkaoui, Sabiha; Lebouvier, Thibaud; Schueller, Estelle; Tzeplaeff, Laura; Grgurina, Iris; Seguin, Jonathan; Stauber, Jonathan; Lopes, Luísa V.; Buee, Luc; Buée-Scherrer, Valerie; Cunha, Rodrigo A.; Ait-Belkacem, Rima; Sergeant, Nicolas; Annicotte, Jean-Sébastien; Boutillier, Anne-Laurence; Blum, David

doi:10.1172/JCI149371

Please use this identifier to cite or link to this item: https://hdl.handle.net/10316/100338

Title:	Caffeine intake exerts dual genome-wide effects on hippocampal metabolism and learning-dependent transcription
Authors:	Paiva, Isabel Cellai, Lucrezia Meriaux, Céline Poncelet, Lauranne Nebie, Ouada Saliou, Jean-Michel Lacoste, Anne-Sophie Papegaey, Anthony Drobecq, Hervé Le Gras, Stéphanie Schneider, Marion Malik, Enas M Müller, Christa E. Faivre, Emilie Carvalho, Kevin Gomez-Murcia, Victoria Vieau, Didier Thiroux, Bryan Eddarkaoui, Sabiha Lebouvier, Thibaud Schueller, Estelle Tzeplaeff, Laura Grgurina, Iris Seguin, Jonathan Stauber, Jonathan Lopes, Luísa V. Buee, Luc Buée-Scherrer, Valerie Cunha, Rodrigo A. Ait-Belkacem, Rima Sergeant, Nicolas Annicotte, Jean-Sébastien Boutillier, Anne-Laurence Blum, David
Keywords:	Epigenetics; Memory; Neuroscience; Pharmacology
Issue Date:	10-May-2022
Publisher:	American Society for Clinical Investigation
Project:	POCI-01-0145-FEDER- 03127 info:eu-repo/grantAgreement/FCT/CEEC IND 2017/CEECIND/01497/2017/CP1396/CT0004/PT
Serial title, monograph or event:	The Journal of Clinical Investigation
Abstract:	Caffeine is the most consumed psychoactive substance worldwide. Strikingly, molecular pathways engaged by its regular consumption remain unclear. We herein addressed the mechanisms associated with habitual (chronic) caffeine consumption in the mouse hippocampus using untargeted orthogonal-omics techniques. Our results revealed that chronic caffeine exerts concerted pleiotropic effects in the hippocampus, at the epigenomic, proteomic and metabolomic levels. Caffeine lowers metabolic-related processes in the bulk tissue, while it induces neuronal-specific epigenetic changes at synaptic transmission/plasticity-related genes and increased experience-driven transcriptional activity. Altogether, these findings suggest that regular caffeine intake improves the signal-to-noise ratio during information encoding, in part through a fine-tuning of metabolic genes while boosting the salience of information processing during learning in neuronal circuits.
URI:	https://hdl.handle.net/10316/100338
ISSN:	1558-8238
DOI:	10.1172/JCI149371
Rights:	openAccess
Appears in Collections:	I&D CNC - Artigos em Revistas Internacionais FMUC Medicina - Artigos em Revistas Internacionais

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