Agenda & Actualités






Séminaire
07/04/2021 09h00
Steve DOS SANTOS CARVALHO, 3rd Bordeaux Cell Biology Gathering
2021-04-07 09:00:00 2021-04-07 18:00:00 Europe/Paris Steve DOS SANTOS CARVALHO, 3rd Bordeaux Cell Biology Gathering 0    Afficher l'article web Link

Lieu: Agora du Haut Carré, Talence

Rejoignez nous et participez au 3ème BCBG qui aura lieu à Talence (Agora du Haut Carré) le 7 Avril 2020

Programme disponible ici


Pour plus de détails: https://neurocentre-magendie.fr/NCM_Downloads_open/BCBG2020Programme.pdf


Info générale
          Afficher l'article web Link     Afficher le PDF

Venue: Bordeaux School of Neuroscience

The normal aging process is associated with reduced performance on cognitive tasks that require one to quickly process or transform information to make a decision, including measures of speed of processing, executive cognitive function, working and relational memories. Structural and functional alterations in the brain correlate with these age-related cognitive changes, such as loss of synapses, and dysfunction of neuronal networks. It is crucial to develop new approaches that consider the whole neuroanatomical, endocrine, immunological, vascular and cellular changes impacting on cognition.

This 3-week course will cover the fundamentals of cognitive aging -including inter-individual differences, cognitive and brain reserve and risk factors- and highlight the newest functional imaging methods to study human brain function. The Faculty will share the state-of-the-art molecular, optical, computational, electrophysiological, behavioural and epidemiological approaches available for studying the aging brain in diverse model systems. The Students will learn the potential and limitations of these methods, through practical experience in a combination of lectures addressing aging in both humans and animal models and hands-on-projects. They will acquire sufficient practical experience to model, design and interpret experiments and brainstorm on novel technologies and hypotheses to explore the aging of the brain using more integrative and creative approaches.

Keynote speakers:
Hélène Amieva - University of Bordeaux
Adam Antebi - MPI for Biology of Ageing
Carol Barnes - University of Arizona
LucBuée-Centrede Recherche Jean-Pierre Aubert
Gwenaëlle Catheline - University of Bordeaux
Maria Llorens-Martin - Centro de Biologia
Molecular Severo Ochoa
Aline Marighetto - University of Bordeaux
Lars Nyberg - Umeå University
Laure Rondi-Reig - Sorbonne University
Yaakov Stern - Columbia University
Tony Wyss-Coray - Stanford University

Course director: Luísa Lopes
Co-directors: Cheryl Grady and Nora Abrous

Application deadline: 25 May 2020
Stipends are available

Registration
Fee : 3.500 € (includes tuition fee, accommodation and meals)

The CAJAL programme offers 4 stipends per course (waived registration fee, not including travel expenses). Please apply through the course online application form. In order to identify candidates in real need of a stipend, any grant applicant is encouraged to first request funds from their lab, institution or government.

Kindly note that if you benefited from a Cajal stipend in the past, you are no longer eligible to receive this kind of funding. However other types of funding (such as partial travel grants from sponsors) might be made available after the participants selection process, depending on the course.

For enquiries, please contact: info@cajal-training.org




Hottopic
24/06/2020 10h00
Pierre Louis Raux from Revest's lab will give a presentation entitled "Physiological regulation of the cannabinoid type-1 receptor by the neurosteroid pregnenolone: study in mutant CB1-E134G mice"

Hottopic
24/06/2020 10h30
Rafael De Sa from Frick's lab will give a presentation entitled "Single-cell RNA and electrophysiological profiling of D1+ and D2+ principal neurons of the prefrontal cortex"



Ignacio Fernandez Moncada est né loin d’ici, dans la ville colorée de Valparaiso, au Chili, face à l’Océan Pacifique. Il est maintenant post-doctorant au Neurocentre Magendie, dans l’équipe de Giovanni Marsicano. Faisons sa rencontre !




Hottopic
27/05/2020 10h00
Misa Arizono from Oliet's lab will give a presentation entitled 'Structural basis of astrocytic Ca2+ signals at tripartite synapses'

Hottopic
27/05/2020 10h30
Paula Gomez from Marsicano's lab will give a presentation entitled 'CB1 receptor control of social affective behaviors'


Des scientifiques du Laboratoire des maladies neurodégénératives (CNRS/CEA/Université Paris-Saclay) et du Neurocentre Magendie (Inserm/Université de Bordeaux) viennent de mettre en évidence le rôle déterminant que joue une voie métabolique dans les troubles de mémoire de la maladie d’Alzheimer. Leurs travaux, à paraître le 3 mars 2020 dans Cell Metabolism, montrent également qu’un apport en acide aminé particulier, sous forme de complément alimentaire, restaure la mémoire spatiale atteinte de façon précoce chez des souris modèles de la maladie. Une piste prometteuse pour atténuer la perte de mémoire liée à Alzheimer.

Impairment of Glycolysis-Derived L-Serine Production in Astrocytes Contributes to Cognitive Deficits in Alzheimer’s Disease. Juliette Le Douce, Marianne Maugard, Julien Veran, Marco Matos, Pierrick Jégo, Pierre-Antoine Vigneron, Emilie Faivre, Xavier Toussay,Michel Vandenberghe, Yaël Balbastre, Juliette Piquet, Elvire Guiot, Nguyet Thuy Tran, Myriam Taverna, Stéphane Marinesco, Ayumi Koyanagi, Shigeki Furuya, Mylène Gaudin-Guerif, Sébastien Goutal, Aurélie Ghettas, Alain Pruvost, Alexis-Pierre Bemelmans, Marie-Claude Gaillard, Karine Cambon, Lev Stimmer, Véronique Sazdovitch, Charles Duyckaerts, Graham Knott, Anne-Sophie Hérard, Thierry Delzescaux, Philippe Hantraye, Emmanuel Brouillet, Bruno Cauli, Stéphane H.R. Oliet, Aude Panatier et Gilles Bonvento. Cell Metabolism, le 3 mars 2020. DOI : 10.1016/j.cmet.2020.02.004
https://www.cell.com/cell-metabolism/fulltext/S1550-4131(20)30063-2




Hottopic
26/02/2020 10h00
Gianluca LAVANCO from Marsicano's lab will give a presentation entitled “What is the role of the mitochondrial CB1 receptor in the cannabinoid-induced modulation of learning and memory and synaptic plasticity?”