William Cazenave

Équipe : Motoneurons and synaptic partners (MotoPSyn)
Ingénieur/technicien  |  Technician  |  Université de Bordeaux

Publications

Excitatory action of low frequency depolarizing GABA/glycine synaptic inputs is prevalent in prenatal spinal SOD1G93A motoneurons
Hongmei Zhu, Urvashi Dalvi, William Cazenave, Daniel Cattaert, Pascal Branchereau
The Journal of Physiology. 2024-02-12
10.1113/JP285105

Implication of 5-HT in the Dysregulation of Chloride Homeostasis in Prenatal Spinal Motoneurons from the G93A Mouse Model of Amyotrophic Lateral Sclerosis
Elodie Martin, William Cazenave, Anne-Emilie Allain, Daniel Cattaert, Pascal Branchereau
IJMS. 2020-02-07
10.3390/ijms21031107

Relaxation of synaptic inhibitory events as a compensatory mechanism in fetal SOD spinal motor networks
Pascal Branchereau, Elodie Martin, Anne-Emilie Allain, William Cazenave, Laura Supiot, Fara Hodeib, Amandine Laupénie, Urvashi Dalvi, Hongmei Zhu, Daniel Cattaert
eLife. 2019-12-23
10.7554/elife.51402

Nonsynaptic glycine release is involved in the early KCC2 expression
Anne-Emilie Allain, William Cazenave, Alain Delpy, Prisca Exertier, Christophe Barthe, Pierre Meyrand, Daniel Cattaert, Pascal Branchereau
Devel Neurobio. 2015-11-03
10.1002/dneu.22358

VEGF modulates synaptic activity in the developing spinal cord
Sylvaine Guérit, Anne-Emilie Allain, Céline Léon, William Cazenave, Napoleone Ferrara, Pascal Branchereau, Andréas Bikfalvi
Devel Neurobio. 2014-05-24
10.1002/dneu.22187

Embryonic alteration of motoneuronal morphology induces hyperexcitability in the mouse model of amyotrophic lateral sclerosis
Elodie Martin, William Cazenave, Daniel Cattaert, Pascal Branchereau
Neurobiology of Disease. 2013-06-01
10.1016/j.nbd.2013.02.011

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