Neurocentre Magendie

Jerome EZAN




Chercheur

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Cursus:
PhD Université Bordeaux II (2005)
Post-Doc MSSM, New York, USA (2006-2010)
Post-Doc Neurocentre Magendie (2010-2014)
CR1 INSERM (2014)






16 publication(s) depuis Décembre 2002:


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11/2014 | Med Sci (Paris)
[The multiple links between cilia and planar cell polarity].
Ezan J, Montcouquiol M

Abstract:
Since our seminal study in 2003, much has been written about core planar cell polarity (core PCP) signaling and the inner ear. In just a few years, and using the inner ear as a model system, our understanding of the molecular basis of this signaling pathway and how it can influence the development of tissues in mammals has increased considerably. Recently, a number of studies using various animal models of development have uncovered original relationships between the cilia and PCP, and the study of the hair cells of the inner ear has helped elucidating one of these links. In this review, we highlight the differences of PCP signaling between mammals and invertebrates. In the light of recent results, we sum up our current knowledge about PCP signaling in the mammalian cochlear epithelium and we discuss the impact of recent data in the field. We focus our attention on the interrelationship between asymmetric polarity complexes and the position of the cilium, which is essential for the establishment of the overall tissue polarity.




23/10/2014 | Cell Rep   IF 7.9
Scribble1/AP2 complex coordinates NMDA receptor endocytic recycling.
Piguel NH, Fievre S, Blanc JM, Carta M, Moreau MM, Moutin E, Pinheiro VL, Medina C, Ezan J, Lasvaux L, Loll F, Durand CM, Chang K, Petralia RS, Wenthold RJ, Stephenson FA, Vuillard L, Darbon H, Perroy J, Mulle C, Montcouquiol M, Racca C, Sans N

Abstract:
The appropriate trafficking of glutamate receptors to synapses is crucial for basic synaptic function and synaptic plasticity. It is now accepted that NMDA receptors (NMDARs) internalize and are recycled at the plasma membrane but also exchange between synaptic and extrasynaptic pools; these NMDAR properties are also key to governing synaptic plasticity. Scribble1 is a large PDZ protein required for synaptogenesis and synaptic plasticity. Herein, we show that the level of Scribble1 is regulated in an activity-dependent manner and that Scribble1 controls the number of NMDARs at the plasma membrane. Notably, Scribble1 prevents GluN2A subunits from undergoing lysosomal trafficking and degradation by increasing their recycling to the plasma membrane following NMDAR activation. Finally, we show that a specific YxxR motif on Scribble1 controls these mechanisms through a direct interaction with AP2. Altogether, our findings define a molecular mechanism to control the levels of synaptic NMDARs via Scribble1 complex signaling.






09/2013 | Nat Cell Biol   IF 18.7
Primary cilium migration depends on G-protein signalling control of subapical cytoskeleton.
Ezan J , Lasvaux L , Gezer A , Novakovic A , May-Simera H , Belotti E , Lhoumeau AC , Birnbaumer L , Beer-Hammer S , Borg JP , Le Bivic A , Nurnberg B , Sans N , Montcouquiol M

Abstract:
In ciliated mammalian cells, the precise migration of the primary cilium at the apical surface of the cells, also referred to as translational polarity, defines planar cell polarity (PCP) in very early stages. Recent research has revealed a co-dependence between planar polarization of some cell types and cilium positioning at the surface of cells. This important role of the primary cilium in mammalian cells is in contrast with its absence from Drosophila melanogaster PCP establishment. Here, we show that deletion of GTP-binding protein alpha-i subunit 3 (Galphai3) and mammalian Partner of inscuteable (mPins) disrupts the migration of the kinocilium at the surface of cochlear hair cells and affects hair bundle orientation and shape. Inhibition of G-protein function in vitro leads to kinocilium migration defects, PCP phenotype and abnormal hair bundle morphology. We show that Galphai3/mPins are expressed in an apical and distal asymmetrical domain, which is opposite and complementary to an aPKC/Par-3/Par-6b expression domain, and non-overlapping with the core PCP protein Vangl2. Thus G-protein-dependent signalling controls the migration of the cilium cell autonomously, whereas core PCP signalling controls long-range tissue PCP.




05/2013 | Semin Cell Dev Biol   IF 5.2
Revisiting planar cell polarity in the inner ear.
Ezan J, Montcouquiol M

Abstract:
Since the first implication of the core planar cell polarity (PCP) pathway in stereocilia orientation of sensory hair cells in the mammalian cochlea, much has been written about this subject, in terms of understanding how this pathway can shape the mammalian hair cells and using the inner ear as a model system to understand mammalian PCP signaling. However, many conflicting results have arisen, leading to puzzling questions regarding the actual mechanism and roles of core PCP signaling in mammals and invertebrates. In this review, we summarize our current knowledge on the establishment of PCP during inner ear development and revisit the contrast between wing epithelial cells in Drosophila melanogaster and sensory epithelia in the mammalian cochlea. Notably, we focus on similarities and differences in the asymmetric distribution of core PCP proteins in the context of cell autonomous versus non-autonomous role of PCP signaling in the two systems. Additionally, we address the relationship between the kinocilium position and PCP in cochlear hair cells and increasing results suggest an alternate cell autonomous pathway in regulating PCP in sensory hair cells.




10/2012 | Development   IF 6.1
Gipc1 has a dual role in Vangl2 trafficking and hair bundle integrity in the inner ear.
Giese AP*, Ezan J*, Wang L, Lasvaux L, Lembo F, Mazzocco C, Richard E, Reboul J, Borg JP, Kelley MW, Sans N, Brigande J, Montcouquiol M

Abstract:
Vangl2 is one of the central proteins controlling the establishment of planar cell polarity in multiple tissues of different species. Previous studies suggest that the localization of the Vangl2 protein to specific intracellular microdomains is crucial for its function. However, the molecular mechanisms that control Vangl2 trafficking within a cell are largely unknown. Here, we identify Gipc1 (GAIP C-terminus interacting protein 1) as a new interactor for Vangl2, and we show that a myosin VI-Gipc1 protein complex can regulate Vangl2 traffic in heterologous cells. Furthermore, we show that in the cochlea of MyoVI mutant mice, Vangl2 presence at the membrane is increased, and that a disruption of Gipc1 function in hair cells leads to maturation defects, including defects in hair bundle orientation and integrity. Finally, stimulated emission depletion microscopy and overexpression of GFP-Vangl2 show an enrichment of Vangl2 on the supporting cell side, adjacent to the proximal membrane of hair cells. Altogether, these results indicate a broad role for Gipc1 in the development of both stereociliary bundles and cell polarization, and suggest that the strong asymmetry of Vangl2 observed in early postnatal cochlear epithelium is mostly a 'tissue' polarity readout.




03/09/2012 | J Cell Biol   IF 8.7
Dishevelled stabilization by the ciliopathy protein Rpgrip1l is essential for planar cell polarity.
Mahuzier A , Gaude HM , Grampa V , Anselme I , Silbermann F , Leroux-Berger M , Delacour D , Ezan J , Montcouquiol M , Saunier S , Schneider-Maunoury S , Vesque C

Abstract:
Cilia are at the core of planar polarity cellular events in many systems. However, the molecular mechanisms by which they influence the polarization process are unclear. Here, we identify the function of the ciliopathy protein Rpgrip1l in planar polarity. In the mouse cochlea and in the zebrafish floor plate, Rpgrip1l was required for positioning the basal body along the planar polarity axis. Rpgrip1l was also essential for stabilizing dishevelled at the cilium base in the zebrafish floor plate and in mammalian renal cells. In rescue experiments, we showed that in the zebrafish floor plate the function of Rpgrip1l in planar polarity was mediated by dishevelled stabilization. In cultured cells, Rpgrip1l participated in a complex with inversin and nephrocystin-4, two ciliopathy proteins known to target dishevelled to the proteasome, and, in this complex, Rpgrip1l prevented dishevelled degradation. We thus uncover a ciliopathy protein complex that finely tunes dishevelled levels, thereby modulating planar cell polarity processes.




02/2012 | J Cell Sci   IF 4.7
Down’s-syndrome-related kinase Dyrk1A modulates the p120-catenin–Kaiso trajectory of the Wnt signaling pathway
Hong JY*, Park JI*, Lee M*, Munoz WA, Miller RK, Ji H, Gu D, Ezan J, Sokol SY*, McCrea PD*

Abstract:





19/10/2010 | Dev Cell   IF 9.3
Regulation of TCF3 by Wnt-dependent phosphorylation during vertebrate axis
Hikasa H , Ezan J , Itoh K , Li X , Klymkowsky MW , Sokol SY

Abstract:
A commonly accepted model of Wnt/beta-catenin signaling involves target gene




08/2009 | Dev Cell   IF 9.3
PAR-1 phosphorylates Mind bomb to promote vertebrate neurogenesis.
Ossipova O , Ezan J , Sokol SY

Abstract:
Generation of neurons in the vertebrate central nervous system requires a complex