https://www.ibens.bio.ens.psl.eu/ fr SPIP - www.spip.net https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L144xH144/siteon0-c1872.jpg?1776314854 https://www.ibens.bio.ens.psl.eu/ 144 144 https://www.ibens.bio.ens.psl.eu/spip.php?article362 https://www.ibens.bio.ens.psl.eu/spip.php?article362 2026-01-09T08:08:16Z text/html fr Anne Pizard CV - No menus <p>I am a newly recruited ENS associate professor in Biology at IBENS, specialized in Neuroscience <br class='autobr' /> La curiosité intellectuelle a toujours été mon moteur. J'essayais constamment de comprendre comment les choses fonctionnent ; les cours de chimie, physique et biologie sont donc devenus mes sujets de prédilection. Après avoir obtenu mon DEUG de Physique/Chimie à Paris VII, passionnée par les questions fondamentales de Biologie, j'ai décidé d'orienter mes études vers la génétique et la neurobiologie.</p> - <a href="https://www.ibens.bio.ens.psl.eu/spip.php?rubrique39" rel="directory">Stéphane Dieudonné</a> / <a href="https://www.ibens.bio.ens.psl.eu/spip.php?mot8" rel="tag">CV - No menus</a> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L150xH90/arton362-d291a.jpg?1776314854' class='spip_logo spip_logo_right' width='150' height='90' alt="" /> <div class='rss_texte'><h5>I am a newly recruited ENS associate professor in Biology at IBENS, specialized in Neuroscience</h5> <hr> <p>La curiosité intellectuelle a toujours été mon moteur. J'essayais constamment de comprendre comment les choses fonctionnent ; les cours de chimie, physique et biologie sont donc devenus mes sujets de prédilection. Après avoir obtenu mon DEUG de Physique/Chimie à Paris VII, passionnée par les questions fondamentales de Biologie, j'ai décidé d'orienter mes études vers la génétique et la neurobiologie.</p> <p>Après mon DEUG en Biologie de l'université Paris VI, j'ai été sélectionnée pour rejoindre le Magistère de Génétique en 2002 à l'université Paris VII. J'ai ainsi eu l'opportunité unique d'effecteur plusieurs stages dans des universités et instituts prestigieux. Au cours de la deuxième année de mon Master, j'ai pu suivre le cours Pasteur de Neurosciences à Paris. J'ai alors acquis la certitude que je voulais orienter ma carrière vers les neurosciences en alliant la génétique.</p> <p>En 2004, pour allier ces deux centres d'intérêts, j'ai rejoint pour mon master puis ma thèse l'équipe de Jean-Louis Bessereau à l'École Normale Supérieure, qui utilise le nématode Caenorhabditis elegans, un ver non parasite pour l'homme, comme modèle génétique afin d'étudier les mécanismes d'agrégation des récepteurs ionotropes à la jonction neuromusculaire. Au cours de ma thèse, j'ai identifié une nouvelle protéine synaptique, LEV-9, qui est nécessaire à la localisation des récepteurs de l'acétylcholine (1). Mes résultats ont mis en évidence un nouveau mécanisme régulant le nombre de récepteurs aux synapses reposant sur des interactions protéine/protéine extracellulaires.</p> <p>Après avoir étudié les mécanismes cellulaires impliqués dans la formation des synapses, j'ai voulu m'orienter vers la compréhension des différentes étapes du développement du système nerveux et élucider la manière dont un neurone acquiert son identité. En 2010, j'ai ainsi rejoint le laboratoire du Professeur Hobert à l'université de Columbia (New-York, USA) financée par une bourse EMBO puis HFSP. Mon travail, qui m'a permis d'établir qu'un code combinatoire de facteurs de transcription contrôle la différenciation terminale des neurones GABAergiques chez C. elegans, m'a surtout menée à redéfinir le système GABAergique du nématode en identifiant 22 nouvelles cellules contenant du GABA, 15 étant des neurones (4). <br class='autobr' /> Le GABA est le principal neurotransmetteur inhibiteur dans les neurones matures des vertébrés. Que ce soit chez les invertébrés ou les vertébrés, le phénotype GABAergique a été défini de façon traditionnelle par la présence de trois principaux acteurs : (i) GAD, l'enzyme responsable pour la synthèse du GABA à partir du glutamate, (ii) VGAT, le transporteur vésiculaire du GABA (VGAT/unc-47) et (iii) GAT, le transporteur membranaire du GABA qui capture le GABA au niveau de la fente synaptique après sa libération. Cependant, au cours de mon post-doc, j'ai complètement revisité la vision classique que l'on avait du système nerveux GABAergique chez C. elegans et j'ai apporté de nouvelles perspectives quant à ce que définit un neurone GABAergique dans cet organisme modèle. En particulier, j'ai montré que des neurones additionnels contenaient du GABA mais n'exprimaient pas toujours GAD/unc-25, VGAT/unc-47 et GAT/snf-11. En effet, j'ai identifié quatre nouveaux types de neurones qui sont positifs pour le GABA mais qui n'expriment pas toujours l'ensemble des trois acteurs qui définissent le phénotype GABAergique d'un neurone. Deux de ces types montrent de façon flagrante des modes de transport alternatif du GABA puisqu'ils ne possèdent ni VGAT/unc-47 et/ou GAT/snf-11 et ne synthétisent pas de GABA.<br class='autobr' /> Avec deux de mes collègues, nous avons étendu l'étude du système nerveux à celui du mâle qui, en plus de ses 294 neurones en commun avec l'hermaphrodite, possède 93 neurones spécifiques. Nous avons mis en évidence une utilisation différente des neurotransmetteurs selon le sexe de l'animal impliquant donc un changement de fonction des neurones communs selon le sexe (5).</p> <p>Au cours de ma thèse, j'ai également été recrutée en tant que Moniteur de l'Université Paris VI pour enseigner aux étudiants de Licence la génétique et la biologie cellulaire. A Columbia, j'ai encadré deux étudiants du niveau Master et cinq étudiants du niveau Licence. Trois d'entre eux ont décidé d'effectuer une thèse. Avoir été monitrice ainsi qu'avoir encadré des étudiants ont été des expériences exceptionnelles qui m'ont fait réaliser ma passion et ma capacité d'enseigner.</p> <p>En 2017, j'ai été recruté comme Maître de Conférences en Neurosciences à l'institut de Biologie de l'Ecole Normale Supérieure (IBENS). J'ai rejoint l'équipe « Transmission inhibitrice » dirigée par Stéphane Dieudonné ce qui me permet d'allier les puissants outils génétiques disponibles chez C. elegans avec le modèle de la souris qui est essentiel pour valider tout mécanisme.<br class='autobr' /> J'ai montré l'existence de mécanismes alternatifs pour le transport du GABA chez C. elegans (4). De plus, chez les neurones dopaminergiques des vertébrés, des observations similaires ont été faites suggérant l'existence de mécanismes alternatifs de transport du GABA. Comprendre ces nouveaux mécanismes apporterait un éclairage nouveau sur la régulation des réseaux neuronaux au travers de l'inhibition. Je propose de tirer avantage de C. elegans, un organisme modèle puissant de par sa génétique, pour identifier et caractériser de nouveaux acteurs présynaptiques de la transmission GABAergique, se concentrant principalement sur des transporteurs supposés ou caractérisés. Nous testerons par la suite les orthologues chez les vertébrés sachant que les composants connus de la machinerie GABAergique sont conservés entre les mammifères et les vers. De nouvelles fonctions pour des transporteurs déjà caractérisés pourraient être découvertes, comme cela a été le cas pour le transporteur vésiculaire du glutamate 1 (VGLUT1) alias BNP1.</p> <p>PUBLICATIONS</p> <p>1) Gendrel M, Rapti G, Richmond JE, Bessereau J-L. A secreted complement-control-related protein ensures acetylcholine receptor clustering. Nature. 2009 Oct 15 ;461(7266):992–6.<br class='autobr' /> 2) Sancar F, Touroutine D, Gao S, Oh HJ, Gendrel M, Bessereau J-L, Kim H, Zhen M, Richmond JE. The dystrophin-associated protein complex maintains muscle excitability by regulating Ca(2+)-dependent K(+) (BK) channel localization. J Biol Chem. 2011 Sep 23 ;286(38):33501–10.<br class='autobr' /> 3) Buonanno M, Garty G, Grad M, Gendrel M, Hobert O, Brenner DJ. Microbeam irradiation of C. elegans nematode in microfluidic channels. Radiat Environ Biophys. 2013 Nov ;52(4):531–7.<br class='autobr' /> 4) Gendrel M*, Atlas EG, Hobert O*. A cellular and regulatory map of the GABAergic nervous system of C. elegans. Elife. 2016 Oct 14 ;5:1395. *corresponding author<br class='autobr' /> 5) Serrano-Saiz E1*, Pereira L1*, Gendrel M1*, Aghayeva U, Battacharya A, Howell K, Garcia LR, Hobert O*. A Neurotransmitter Atlas of the Caenorhabditis elegans Male Nervous System Reveals Sexually Dimorphic Neurotransmitter Usage. Genetics. 2017 Jul ;206(3):1251–69 1co-first author *corresponding author</p></div> https://www.ibens.bio.ens.psl.eu/spip.php?article126 https://www.ibens.bio.ens.psl.eu/spip.php?article126 2022-10-20T08:30:00Z text/html fr Stéphane Supplisson <p>Dynamic role of GlyT1 as glycine sink or source : Pharmacological implications for the gain control of NMDA receptors. Supplisson S Neurosci. 2024 Online ahead of print. doi : 10.1016/j.neuroscience.2024.07.037 PMID : 39059742 PDF <br class='autobr' /> Identification and Organization of a Postural Anti-Gravity Module in the Cerebellar Vermis. Gouhier A, Vilette V, Mathieu B, Ayon A, Bradley J, Dieudonné S Neurosci. 2024 Online ahead of print. doi : 10.1016/j.neuroscience.2024.06.006 PMID : 38897374 PDF</p> - <a href="https://www.ibens.bio.ens.psl.eu/spip.php?rubrique39" rel="directory">Stéphane Dieudonné</a> <div class='rss_texte'><p><a href="https://www.ncbi.nlm.nih.gov/pubmed/39059742" class="spip_out" rel="external">Dynamic role of GlyT1 as glycine sink or source : Pharmacological implications for the gain control of NMDA receptors.</a><br class='autobr' /> Supplisson S<br class='autobr' /> Neurosci. 2024 Online ahead of print.<br class='autobr' /> doi : <a href="https://doi.org/10.1016/j.neuroscience.2024.07.037" class="spip_out" rel="external">10.1016/j.neuroscience.2024.07.037</a> PMID : 39059742 <a href="https://www.ibroneuroscience.org/article/S0306-4522(24)003506/fulltext?rss=yes" class="spip_out" rel="external"><strong>PDF</strong></a></p> <p><a href="https://www.ncbi.nlm.nih.gov/pubmed/38897374" class="spip_out" rel="external">Identification and Organization of a Postural Anti-Gravity Module in the Cerebellar Vermis.</a><br class='autobr' /> Gouhier A, Vilette V, Mathieu B, Ayon A, Bradley J, Dieudonné S<br class='autobr' /> Neurosci. 2024 Online ahead of print.<br class='autobr' /> doi : <a href="https://doi.org/10.1016/j.neuroscience.2024.06.006" class="spip_out" rel="external">10.1016/j.neuroscience.2024.06.006</a> PMID : 38897374 <a href="https://www.ibroneuroscience.org/article/S0306-4522(24)00263-X/fulltext?rss=yes" class="spip_out" rel="external"><strong>PDF</strong></a></p> <p><a href="https://www.ncbi.nlm.nih.gov/pubmed/36687523" class="spip_out" rel="external">Neurotransmitter content heterogeneity within an interneuron class shapes inhibitory transmission at a central synapse.</a><br class='autobr' /> Dumontier D, Mailhes-Hamon C, Supplisson S, Dieudonné S. <br class='autobr' /> Front. 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Caenorhabditis elegans.</a><br class='autobr' /> Serrano-Saiz E, Gulez B, Pereira L, Gendrel M, Kerk SY, Vidal B, Feng W, Wang C, Kratsios P, Rand JB, Hobert O.<br class='autobr' /> Genetics. 2020 <strong>215</strong>:665-681<br class='autobr' /> doi : <a href="https://doi.org/10.1534/genetics.120.303206" class="spip_out" rel="external">10.1534/genetics.120.303206</a> PMID : 32444379</p> <p><a href="https://www.ncbi.nlm.nih.gov/pubmed/31835034" class="spip_out" rel="external">Ultrafast Two-Photon Imaging of a High-Gain Voltage Indicator in Awake Behaving Mice.</a><br class='autobr' /> Villette V, Chavarha M, Dimov IK, Bradley J, Pradhan L, Mathieu B, Evans SW, Chamberland S, Shi D, Yang R, Kim BB, Ayon A, Jalil A, St-Pierre F, Schnitzer MJ, Bi G, Toth K, Ding J, Dieudonné S, Lin MZ.<br class='autobr' /> Cell. 2019 <strong>179</strong>:1590-1608<br class='autobr' /> doi : <a href="https://doi.org/10.1016/j.cell.2019.11.004" class="spip_out" rel="external">10.1016/j.cell.2019.11.004</a> 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inhibitory signal for behavioral arrest in the thalamus.</a><br class='autobr' /> Giber K, Diana MA, M Plattner V, Dugué GP, Bokor H, Rousseau CV, Maglóczky Z, Havas L, Hangya B, Wildner H, Zeilhofer HU, Dieudonné S, Acsády L<br class='autobr' /> Nat Neurosci. 2015 <strong>18</strong>(4):562-568.<br class='autobr' /> doi : <a href="http://www.nature.com/neuro/journal/v18/n4/full/nn.3951.html" class="spip_out" rel="external">10.1038/nn.3951</a> PMID : 25706472 <a href="http://www.nature.com/neuro/journal/v18/n4/full/nn.3951.html" class="spip_out" rel="external"><strong>PDF</strong></a></p> <p><a href="http://www.ncbi.nlm.nih.gov/pubmed/?term=25220810" class="spip_out" rel="external">Activity-dependent gating of calcium spikes by A-type K⁺ channels controls climbing fiber signaling in Purkinje cell dendrites.</a><br class='autobr' /> Otsu Y, Marcaggi P, Feltz A, Isope P, Kollo M, Nusser Z, Mathieu B, Kano M, Tsujita M, Sakimura K, Dieudonné S.<br class='autobr' /> Neuron. 2014 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href="http://www.ncbi.nlm.nih.gov/pubmed/17409247" class="spip_out" rel="external">T-type and L-type Ca²⁺ conductances define and encode the bimodal firing pattern of vestibulocerebellar unipolar brush cells.</a><br class='autobr' /> Diana MA, Otsu Y, Maton G, Collin T, Chat M, Dieudonné S.<br class='autobr' /> J Neurosci. 2007 <strong>27</strong>(14):3823-38.<br class='autobr' /> doi : <a href="http://www.jneurosci.org/content/27/14/3823.long" class="spip_out" rel="external">10.1523/JNEUROSCI.4719-06.2007</a> PMID : 17409247 <a href="http://www.jneurosci.org/content/27/14/3823.full.pdf+html" class="spip_out" rel="external"><strong>PDF</strong></a></p> <p><a href="http://www.ncbi.nlm.nih.gov/pubmed/16751771" class="spip_out" rel="external">Mutations in the gene encoding GlyT2 (SLC6A5) define a presynaptic component of human startle disease.</a><br class='autobr' /> Rees M, Harvey K, Pearce B, Chung S-K, Duguid I, Thomas P, Beatty S, Graham G, Armstrong L, Shiang R, Abbott K, Zuberi S, Stephenson J, Owen M, Tijssen M, Maagdenberg A van den, Smart T, Supplisson S, Harvey R<br class='autobr' /> Nat Genet. 2006 <strong>38</strong>(7):801-6<br class='autobr' /> doi :<a href="http://www.nature.com/ng/journal/v38/n7/full/ng1814.html" class="spip_out" rel="external">10.1038/ng1814</a> PMID:16751771 <a href="http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3204411/" class="spip_out" rel="external"><strong>PDF</strong></a></p></div> https://www.ibens.bio.ens.psl.eu/spip.php?article124 https://www.ibens.bio.ens.psl.eu/spip.php?article124 2022-09-20T09:30:00Z text/html fr Stéphane Supplisson <p>Scientific staff Marco Diana (CR CNRS) Mechanisms and functional roles of glutamatergic synapse diversity in a cerebellar circuit. Zampini V, Liu J, Diana M, Maldonado P, Brunel N, Dieudonné S. eLife (2016) 5.e15872.A subcortical inhibitory signal for behavioral arrest in the thalamus. Giber K, Diana M, Plattner V, Dugué G, Bokor H, Rousseau C, Maglóczky Z, Havas L, Hangya B, Wildner H, Zeilhofer H, Dieudonné S, Acsády L. Nature Neuroscience (2015) 18:562–568.NMDA Receptors with Incomplete</p> - <a href="https://www.ibens.bio.ens.psl.eu/spip.php?rubrique39" rel="directory">Stéphane Dieudonné</a> <div class='rss_texte'><h4>Scientific staff</h4><table class="table spip"> <tbody> <tr class='row_odd odd'> <td><a href="#marco.diana#mc#upmc.fr#" title="marco.diana..åt..upmc.fr" onclick="location.href=mc_lancerlien('marco.diana','upmc.fr'); return false;" class="spip_mail"><strong>Marco Diana</strong> (CR CNRS</a>)<br /> <br /><ul class="spip" role="list"><li>Mechanisms and functional roles of glutamatergic synapse diversity in a cerebellar circuit. Zampini V, Liu J, <strong>Diana M</strong>, Maldonado P, Brunel N, Dieudonné S. eLife (2016) <strong>5</strong>.e15872.</li><li>A subcortical inhibitory signal for behavioral arrest in the thalamus. Giber K, <strong>Diana M</strong>, Plattner V, Dugué G, Bokor H, Rousseau C, Maglóczky Z, Havas L, Hangya B, Wildner H, Zeilhofer H, Dieudonné S, Acsády L. Nature Neuroscience (2015) 18:562–568.</li><li>NMDA Receptors with Incomplete Mg2+ Block Enable Low-Frequency Transmission through the Cerebellar Cortex. Schwartz E, Rothman J, Dugué G, <strong>Diana M</strong>, Rousseau C, Silver A, Dieudonné S. J Neurosci (2012) 32:6878-6893</li><li>Mixed Inhibitory Synaptic Balance Correlates with Glutamatergic Synaptic Phenotype in Cerebellar Unipolar Brush Cells. Rousseau CV, Dugué G, Dumoulin A, Mugnaini E, Dieudonné S, <strong>Diana M</strong>. The Journal of Neuroscience (2012) 32:4632–4644.</li><li>T-Type and L-Type Ca2+ Conductances Define and Encode the Bimodal Firing Pattern of Vestibulocerebellar Unipolar Brush Cells. <strong>Diana M</strong>, Otsu Y, Maton G, Collin T, Chat M, Dieudonné S. J Neurosci (2007) 27, 3823–3838</li></ul></td></tr> </tbody> </table><table class="table spip"> <tbody> <tr class='row_odd odd'> <td><a href="#paikan.marcaggi#mc#inserm.fr#" title="paikan.marcaggi..åt..inserm.fr" onclick="location.href=mc_lancerlien('paikan.marcaggi','inserm.fr'); return false;" class="spip_mail"><strong>Païkan Marcaggi</strong> (CR CNRS)</a><br /> <br /><ul class="spip" role="list"><li>Activity-dependent gating of calcium spikes by A-type K+ channels controls climbing fiber signaling in Purkinje cell dendrites.Otsu Y, <strong>Marcaggi P</strong>, Feltz A, Isope P, Kollo M, Nusser Z, Mathieu B, Kano M, Tsujita M, Sakimura K, Dieudonné S. Neuron (2014) 84:137-151</li><li>Clusters of cerebellar Purkinje cells control their afferent climbing fiber discharge. Chaumont J, Guyon N, Valera AM, Dugué GP, Popa D, <strong>Marcaggi P</strong>, Gautheron V, Reibel-Foisset S, Dieudonné S, Stephan A, Barrot M, Cassel JC, Dupont JL, Doussau F, Poulain B, Selimi F, Léna C, Isope P. PNAS (2013) 110:16223-16228</li></ul></td></tr> </tbody> </table><h4>Post-doc</h4><table class="table spip"> <tbody> <tr class='row_odd odd'> <td><strong>Yo Otsu</strong><br /> <br /><ul class="spip" role="list"><li>Activity-dependent gating of calcium spikes by A-type K+ channels controls climbing fiber signaling in Purkinje cell dendrites. <strong>Otsu Y</strong>, Marcaggi P, Feltz A, Isope P, Kollo M, Nusser Z, Mathieu B, Kano M, Tsujita M, Sakimura K, Dieudonné S. Neuron (2014) 84:137-151</li><li>Optical monitoring of neuronal activity at high frame rate with a digital random-access multiphoton (RAMP) microscope. <strong>Otsu Y</strong>, Bormuth V, Wong J, Mathieu B, Dugué G, Feltz A, Dieudonné S. J Neurosci Meth (2008) 173, 259–270.</li><li>T-Type and L-Type Ca2+ Conductances Define and Encode the Bimodal Firing Pattern of Vestibulocerebellar Unipolar Brush Cells. Diana, M., <strong>Otsu Y</strong>, Maton, G., Collin, T., Chat, M., Dieudonné, S.The Journal of Neuroscience Diana, M., Otsu, Y., Maton, G., Collin, T., Chat, M., Dieudonné, S. (2007) 27, 3823–3838</li></ul></td></tr> <tr class='row_even even'> <td><strong>Valeria Zampini</strong><br /> <br /><ul class="spip" role="list"><li>Mechanisms and functional roles of glutamatergic synapse diversity in a cerebellar circuit. <strong>Zampini V</strong>, Liu J, Diana M, Maldonado P, Brunel N, Dieudonné S. eLife (2016) 5.e15872</li></ul></td></tr> <tr class='row_odd odd'> <td><a href="#eric.schwartz#mc#inserm.fr#" title="eric.schwartz..åt..inserm.fr" onclick="location.href=mc_lancerlien('eric.schwartz','inserm.fr'); return false;" class="spip_mail"><strong>Eric Schwartz</strong> (MC UPMC)</a><br /> <br /><ul class="spip" role="list"><li>NMDA receptors with incomplete Mg²⁺ block enable low-frequency transmission through the cerebellar cortex. <strong>Schwartz E</strong>, Rothman J, Dugué G, Diana M, Rousseau C, Silver A, Dieudonné S. J Neurosci (2012) 32:6878-6893</li><li> Electrical coupling mediates tunable low-frequency oscillations and resonance in the cerebellar Golgi cell network. Dugué GP, Brunel N, Hakim V, <strong>Schwartz E</strong>, Chat M, Lévesque M, Courtemanche R, Léna C, Dieudonné S. Neuron (2009) 61:126-139</li></ul></td></tr> <tr class='row_even even'> <td><strong>Peng Tu</strong><br /> <br /><ul class="spip" role="list"><li>Cytosolic Transmitter Concentration Regulates Vesicle Cycling at Hippocampal GABAergic Terminals. Wang* L, <strong>Tu P*</strong>, Bonet L, Aubrey KR, Supplisson S. Neuron (2013) 80:143-158</li></ul></td></tr> <tr class='row_odd odd'> <td><a href="#karin.aubrey#mc#sydney.edu.au#" title="karin.aubrey..åt..sydney.edu.au" onclick="location.href=mc_lancerlien('karin.aubrey','sydney.edu.au'); return false;" class="spip_mail"><strong>Karin Aubrey</strong></a><br /> <br /><ul class="spip" role="list"><li>Heterogeneous Signaling at GABA and Glycine Co-releasing Terminals. <strong>Aubrey KR</strong>, Supplisson S. Front Synaptic Neurosci (2018) 6:40</li><li>Cytosolic Transmitter Concentration Regulates Vesicle Cycling at Hippocampal GABAergic Terminals. Wang* L, Tu* P, Bonet L, <strong>Aubrey KR</strong> , Supplisson S. Neuron (2013) 80:143-158</li><li>The glycine transporter GlyT2 controls the dynamics of synaptic vesicle refilling in inhibitory spinal cord neurons. Rousseau F, <strong>Aubrey KR</strong>, Supplisson S. J Neurosci (2008) 28:9755-9768</li><li>The transporters GlyT2 and VIAAT cooperate to determine the vesicular glycinergic phenotype. <strong>Aubrey KR*</strong>, Rossi FM*, Ruivo R, Alboni S, Bellenchi GC, Le Goff A, Gasnier B, Supplisson S. J Neurosci (2007) 27:6273-6281</li></ul></td></tr> <tr class='row_even even'> <td><strong>Francesco Rossi</strong><br /> <br /><ul class="spip" role="list"><li> The transporters GlyT2 and VIAAT cooperate to determine the vesicular glycinergic phenotype. Aubrey KR*, <strong>Rossi FM*</strong>, Ruivo R, Alboni S, Bellenchi GC, Le Goff A, Gasnier B, Supplisson S. J Neurosci (2007) 27:6273-6281</li></ul></td></tr> </tbody> </table><h4>Ph.D. Students</h4><table class="table spip"> <tbody> <tr class='row_odd odd'> <td><strong>Dimitri Dumontier</strong> <br /> <br /><ul class="spip" role="list"><li>Neurotransmitter content heterogeneity within an interneuron class shapes inhibitory transmission at a central synapse. <strong>Dumontier D</strong>, Mailhes-Hamon C, Supplisson S, Dieudonné S. <br class='autobr' /> Front. Cell. Neurosci. 2023 <strong>16</strong>:1060189</li></ul></td></tr> <tr class='row_even even'> <td><strong>Laurine Bonet</strong><br /> <br /><ul class="spip" role="list"><li>Cytosolic Transmitter Concentration Regulates Vesicle Cycling at Hippocampal GABAergic Terminals. Wang* L, Tu* P, <strong>Bonet L</strong>, Aubrey KR, Supplisson S. Neuron (2013) 80:143-158</li></ul></td></tr> <tr class='row_odd odd'> <td><strong>Zoé Husson</strong> <br /> <br /><ul class="spip" role="list"><li>A novel inhibitory nucleo-cortical circuit controls cerebellar Golgi cell activity.<br class='autobr' /> Ankri L, <strong>Husson Z</strong>, Pietrajtis K, Proville R, Léna C, Yarom Y, Dieudonné S, Uusisaari M. Elife (2015) 4.e06262.</li><li>Differential GABAergic and Glycinergic Inputs of Inhibitory Interneurons and Purkinje Cells to Principal Cells of the Cerebellar Nuclei. <strong>Husson Z</strong>, Rousseau C, Broll I, Zeilhofer H, Dieudonné S. J Neurosci (2014) 34:9418–9423</li></ul></td></tr> <tr class='row_even even'> <td><strong>Katarzyna Pietrajtis</strong><br /> <br /><ul class="spip" role="list"><li>A novel inhibitory nucleo-cortical circuit controls cerebellar Golgi cell activity.<br class='autobr' /> Ankri L, Husson Z, <strong>Pietrajtis K</strong>, Proville R, Léna C, Yarom Y, Dieudonné S, Uusisaari M. Elife (2015) 4.e06262</li><li>Granule cell ascending axon excitatory synapses onto Golgi cells implement a potent feedback circuit in the cerebellar granular layer. Cesana E, <strong>Pietrajtis K</strong>, Bidoret C, Isope P, D'Angelo E, Dieudonné S, Forti L. J Neurosci (2013) 33:12430-12446</li></ul></td></tr> <tr class='row_odd odd'> <td><strong>Charly Rousseau</strong><br /> <br /><ul class="spip" role="list"><li>Differential GABAergic and Glycinergic Inputs of Inhibitory Interneurons and Purkinje Cells to Principal Cells of the Cerebellar Nuclei. Husson Z, <strong>Rousseau C</strong>, Broll I, Zeilhofer H, Dieudonné S. J Neurosci (2014) 34:9418–9423</li><li>Mixed inhibitory synaptic balance correlates with glutamatergic synaptic phenotype in cerebellar unipolar brush cells. <strong>Rousseau CV</strong>, Dugué GP, Dumoulin A, Mugnaini E, Dieudonné S, Diana MA. J Neurosci (2012) 32:4632-4644</li><li>NMDA receptors with incomplete Mg²⁺ block enable low-frequency transmission through the cerebellar cortex. Schwartz EJ, Rothman JS, Dugué GP, Diana M, <strong>Rousseau C</strong>, Silver RA, Dieudonné S. J Neurosci (2012) 32:6878-6893</li></ul></td></tr> <tr class='row_even even'> <td><strong>Lu Wang</strong><br /> <br /><ul class="spip" role="list"><li>Cytosolic Transmitter Concentration Regulates Vesicle Cycling at Hippocampal GABAergic Terminals. <strong>Wang L*</strong>, Tu P*, Bonet L, Aubrey KR, Supplisson S. Neuron 2013 80:143-158</li></ul></td></tr> <tr class='row_odd odd'> <td><a href="#gdugue#mc#biologie.ens.fr#" title="gdugue..åt..biologie.ens.fr" onclick="location.href=mc_lancerlien('gdugue','biologie.ens.fr'); return false;" class="spip_mail"><strong>Guillaume Dugué</strong> (CR CNRS)</a><br /> <br /><ul class="spip" role="list"><li>NMDA receptors with incomplete Mg²⁺ block enable low-frequency transmission through the cerebellar cortex. Schwartz EJ, Rothman JS, <strong>Dugué GP</strong>, Diana M, Rousseau C, Silver RA, Dieudonné S. J Neurosci (2012) 32:6878-6893</li><li>Mixed inhibitory synaptic balance correlates with glutamatergic synaptic phenotype in cerebellar unipolar brush cells. Rousseau CV, <strong>Dugué GP</strong>, Dumoulin A, Mugnaini E, Dieudonné S, Diana MA. J Neurosci (2012) 32:4632-4644</li><li>Electrical coupling mediates tunable low-frequency oscillations and resonance in the cerebellar Golgi cell network. <strong>Dugué GP</strong>, Brunel N, Hakim V, Schwartz E, Chat M, Lévesque M, Courtemanche R, Léna C, Dieudonné S. Neuron (2009) 61:126-139</li><li>Target-dependent use of co-released inhibitory transmitters at central synapses. <strong>Dugué GP</strong>, Dumoulin A, Triller A, Dieudonné S. J Neurosci (2005) 25:6490-6498</li><li>Optical monitoring of neuronal activity at high frame rate with a digital random-access multiphoton (RAMP) microscope. Otsu Y, Bormuth V, Wong J, Mathieu B, <strong>Dugué GP</strong>, Feltz A, Dieudonné S. J Neurosci Methods (2008) 173:259-270</li></ul></td></tr> <tr class='row_even even'> <td><strong>France Rousseau</strong><br /> <br /><ul class="spip" role="list"><li>Flux coupling, not specificity, shapes the transport and phylogeny of SLC6 glycine transporters. Le Guellec B, Rousseau F, Bied M, Supplisson S. PNAS 2022 119:e2205874119.</li><li>The glycine transporter GlyT2 controls the dynamics of synaptic vesicle refilling in inhibitory spinal cord neurons. <strong>Rousseau F</strong>, Aubrey KR, Supplisson S. J Neurosci (2008) 28:9755-9768</li><li>Striatal progenitors derived from human ES cells mature into DARPP32 neurons in vitro and in quinolinic acid-lesioned rats. Aubry L, Bugi A, Lefort N, <strong>Rousseau F</strong>, Peschanski M, Perrier AL. PNAS (2008) 105:16707-16712</li></ul></td></tr> <tr class='row_odd odd'> <td><a href="#mjroux#mc#igbmc.fr#" title="mjroux..åt..igbmc.fr" onclick="location.href=mc_lancerlien('mjroux','igbmc.fr'); return false;" class="spip_mail"><strong>Michel Roux</strong> (CR CNRS)</a><br /> <br /><ul class="spip" role="list"><li>Why glycine transporters have different stoichiometries. Supplisson S, <strong>Roux MJ</strong>. FEBS Lett. (2002) 529:93-101</li><li>The glial and the neuronal glycine transporters differ in their reactivity to sulfhydryl reagents. <strong>Roux MJ</strong>, Martinez-Maza R, Le Goff A, Lopez-Corcuera B, Aragon C, Supplisson S. J Biol Chem (2001) 276:17699-17705</li><li>Neuronal and glial glycine transporters have different stoichiometries. <strong>Roux MJ</strong>, Supplisson S. Neuron (2000) 25:373-383</li><li>Differential properties of two stably expressed brain-specific glycine transporters. López-Corcuera B, Martínez-Maza R, Núñez E, <strong>Roux M</strong>, Supplisson S, Aragón C. J Neurochem (1998) 71:2211-2219</li></ul></td></tr> </tbody> </table><h4>Graduate Students</h4> <p>Tristan Charitat M2<br class='autobr' /> Yasmine Hoyeau M2<br class='autobr' /> Albert Buchard M2<br class='autobr' /> Bastien Le Guellec M1 PNAS 2022 119:e2205874119.<br class='autobr' /> Mathieu Tournebize M1<br class='autobr' /> Silvana Valtcheva M1<br class='autobr' /> Julia Erb M1</p></div> https://www.ibens.bio.ens.psl.eu/spip.php?article123 https://www.ibens.bio.ens.psl.eu/spip.php?article123 2014-11-27T13:42:14Z text/html fr Stéphane Supplisson <p>SpAcAn is a collection of IGOR Pro functions for the detection and analysis of spontaneously occuring (non-triggered) events in electrophysiological recordings. It was designed in the team by Guillaume Dugué and Charly Rousseau and has been used in several papers since. SpAcAn was originally designed to facilitate the analysis of spontaneous synaptic activity in whole-cell recordings, but has also been used successfully to detect and analyze spikes or rapid changes in fluorescence. SpAcAn has</p> - <a href="https://www.ibens.bio.ens.psl.eu/spip.php?rubrique39" rel="directory">Stéphane Dieudonné</a> <div class='rss_texte'><p>SpAcAn is a collection of <a href="http://www.wavemetrics.com" class="spip_out" rel="external">IGOR Pro</a> functions for the detection and analysis of spontaneously occuring (non-triggered) events in electrophysiological recordings. It was designed in the team by Guillaume Dugué and Charly Rousseau and has been used in several papers since. SpAcAn was originally designed to facilitate the analysis of spontaneous synaptic activity in whole-cell recordings, but has also been used successfully to detect and analyze spikes or rapid changes in fluorescence. SpAcAn has been tested with IGOR Pro version 5 and later under windows Mac OS and linux with wine.</p> <p>Functionalities include :</p> <p>* An easy-to-use graphical user interface.</p> <div class='spip_document_100 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="42" data-legende-lenx="x" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/png/spacan1-2.png' class="spip_doc_lien mediabox" type="image/png"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH294/spacan1-2-3d5ef.png?1776322111' width='500' height='294' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>spacan1- SpAcAn Graphical User Interface </strong></div> </figcaption></figure> </div> <p>* Two-channel detection and analysis, with the possibility to compute easily correlograms and event-triggered averages.</p> <div class='spip_document_101 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="43" data-legende-lenx="x" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/png/spacan2-2.png' class="spip_doc_lien mediabox" type="image/png"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH293/spacan2-2-4c189.png?1776322111' width='500' height='293' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>spacan2 - SpAcAn Graphical User Interface </strong></div> </figcaption></figure> </div> <p>* A keyboard mode to browse through detected events and select them.</p> <p>* The possibility to fit functions on the time course of individual events.</p> <p>* A support for common plots.</p> <p>* Paired recordings analysis by selection of synchronous events.</p> <p>* Measure of the integral of events.</p> <p>* Superimposition of detected events.</p> <p>It is freely available and can be downloaded at : <a href="https://www.spacan.net" class="spip_out" rel="external">www.spacan.net</a></p></div> https://www.ibens.bio.ens.psl.eu/spip.php?article50 https://www.ibens.bio.ens.psl.eu/spip.php?article50 2014-07-10T11:58:23Z text/html fr Stéphane Supplisson <p>Annick Ayon <br class='autobr' /> AI CNRS</p> - <a href="https://www.ibens.bio.ens.psl.eu/spip.php?rubrique39" rel="directory">Stéphane Dieudonné</a> <div class='rss_texte'><table class="table spip"> <tbody> <tr class='row_odd odd'> <td><div class='spip_document_1571 spip_document spip_documents spip_document_image spip_documents_center spip_document_center'> <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_2-soft.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH335/_2-soft-8951f.jpg?1776322112' width='500' height='335' alt='' /></a> </figure> </div></td></tr> <tr class='row_even even'> <td><div class='spip_document_865 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="30" data-legende-lenx="" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_2019-12-1218_modifier-18.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH500/_2019-12-1218_modifier-18-d05a5.jpg?1776322113' width='500' height='500' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>Stéphane Dieudonné </strong></div> <div class='spip_doc_descriptif '>DR Inserm </div> </figcaption></figure> </div></td></tr> <tr class='row_odd odd'> <td><div class='spip_document_866 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="28" data-legende-lenx="" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_2019-12-1218_modifier-20.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH500/_2019-12-1218_modifier-20-49541.jpg?1776322113' width='500' height='500' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>Jonathan Bradley </strong></div> <div class='spip_doc_descriptif '>CR Inserm </div> </figcaption></figure> </div></td> <td><div class='spip_document_869 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="26" data-legende-lenx="" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_2019-12-1218_modifier-15.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH500/_2019-12-1218_modifier-15-36596.jpg?1776322113' width='500' height='500' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>Vincent Villette </strong></div> <div class='spip_doc_descriptif '>CR CNRS </div> </figcaption></figure> </div></td></tr> <tr class='row_even even'> <td><div class='spip_document_888 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="23" data-legende-lenx="" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_2-214-modifier.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH500/_2-214-modifier-11e1c.jpg?1776322114' width='500' height='500' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>Marie Gendrel </strong></div> <div class='spip_doc_descriptif '>MCF ENS </div> </figcaption></figure> </div></td> <td><div class='spip_document_870 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="31" data-legende-lenx="" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_2-264.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH500/_2-264-56f73.jpg?1776322115' width='500' height='500' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>Stéphane Supplisson </strong></div> <div class='spip_doc_descriptif '>DR Inserm </div> </figcaption></figure> </div></td></tr> <tr class='row_odd odd'> <td><div class='spip_document_1208 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="30" data-legende-lenx="" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_2019-12-1218_modifier-3.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH500/_2019-12-1218_modifier-3-91672.jpg?1776322115' width='500' height='500' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>Alberto Lombardini </strong></div> <div class='spip_doc_descriptif '>Post Doct </div> </figcaption></figure> </div></td> <td><div class='spip_document_867 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="38" data-legende-lenx="x" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_1-092-modifier-2.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH500/_1-092-modifier-2-fb92f.jpg?1776322116' width='500' height='500' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>Dimitri Dumontier </strong></div> <div class='spip_doc_descriptif '>Ph.D. / Post Doct. </div> </figcaption></figure> </div></td></tr> <tr class='row_even even'> <td><div class='spip_document_868 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="32" data-legende-lenx="x" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_1-155-modifier.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH500/_1-155-modifier-a8180.jpg?1776322116' width='500' height='500' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>Aurélien Gouhier </strong></div> <div class='spip_doc_descriptif '>Ph.D. student </div> </figcaption></figure> </div></td> <td><div class='spip_document_864 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="33" data-legende-lenx="x" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_1-061-modifier-2.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH500/_1-061-modifier-2-49b2c.jpg?1776322117' width='500' height='500' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>Clémentine Hatton </strong></div> <div class='spip_doc_descriptif '>Ph.D. student </div> </figcaption></figure> </div></td></tr> <tr class='row_odd odd'> <td><div class='spip_document_1211 spip_document spip_documents spip_document_image spip_documents_center spip_document_center spip_document_avec_legende' data-legende-len="62" data-legende-lenx="x" > <figure class="spip_doc_inner"> <a href='https://www.ibens.bio.ens.psl.eu/IMG/jpg/_2-250-modifier.jpg' class="spip_doc_lien mediabox" type="image/jpeg"> <img src='https://www.ibens.bio.ens.psl.eu/local/cache-vignettes/L500xH500/_2-250-modifier-c4173.jpg?1776322117' width='500' height='500' alt='' /></a> <figcaption class='spip_doc_legende'> <div class='spip_doc_titre '><strong>Charlotte Tissot </strong></div> <div class='spip_doc_descriptif '>Assistante-Ingénieure </div> <div class='spip_doc_credits '>Assistante-Ingénieure </div> </figcaption></figure> </div></td></tr> <tr class='row_even even'> <td><center><br class='autobr' /> <strong>Annick Ayon</strong> <br class='autobr' /> AI CNRS</td></tr> </tbody> </table></div>