Aller au contenuAller au menuAller à la recherche

ERC Advanced Grant pour Daniel Choquet

pour la 3ème fois

Le 5 avril 2018

Daniel Choquet, DR CNRS à l’Institut interdisciplinaire de neurosciences (IINS), est lauréat pour la 3ème fois d'un ERC Advanced Grant décerné par le Conseil Européen de la Recherche (ERC). Après Nano-Dyn-Syn en 2009 et ADOS en 2014, il a été primé pour son projet de recherche Dyn-Syn-Mem qui a pour objectif de comprendre la dynamique et les rôles fonctionnels de la plasticité synaptique dans les phénomènes de mémoire.
En associant des approches de microscopie à très haute résolution, de biologie cellulaire, de physiologie et de comportement, ce projet apportera une vue nouvelle sur les bases cellulaires de l’apprentissage.


 Activity-dependent plasticity
of synaptic transmission together with refinement of neural circuits connectivity are amongst the core mechanisms underlying learning and memory. While there is already extensive knowledge on some of the mechanisms of synaptic plasticity, fundamental questions remain on the dynamics of the underlying molecular events and the functional roles of various forms of synaptic plasticity in information processing, learning and behavior.

We previously uncovered basic features of glutamate receptor movements and their role in excitatory synaptic transmission. Our new ground-breaking objectives are: 1) to uncover, in a physiological context, the dynamic mechanisms through which synapses modulate their strength in response to neuronal activity by integrating on different space and time scales the properties of receptor traffic pathways and associated stabilization mechanisms, 2) to use our knowledge and innovative tools to interfere with these trafficking mechanisms in order to decipher the specific roles of different forms of synaptic plasticity in given brain functions and behavioral tasks. For this aim, I lead a team of neurobiologists, physicists and chemists with a collaborative record of accomplishment. We will combine imaging, cellular neurobiology, physiology and behavior to probe the mechanisms and roles of different forms of synaptic plasticity.

New in tissue high-resolution imaging combined with innovative molecular reporters and electrophysiology will allow analysis of receptor traffic during short and long-term synaptic plasticity in physiological conditions. We will probe the interplay between activity-dependent changes in synaptic strength and circuit function with new photo-activable modifiers of receptor traffic with an unprecedented time and space resolution. Use of these tools in vivo will allow identifying the roles of synaptic plasticity in sensory information processing and the various phases of spatial memory formation.

Daniel Choquet IINS, UMR 5297 CNRS-Université de Bordeaux Institut Interdisciplinaire de NeuroScience BIC, UMS 3420 CNRS-US 004 INSERM-Université de Bordeaux Bordeaux Imaging Center (daniel.choquet @ u-bordeaux.fr)
Dernière mise à jour le 05.04.2018