| |
| Poster session 1 |
| |
| Cell migration |
|
|
| P1-001 |
In vitro dynamics of microglial precursors entry and migration in developing quail retina |
|
Carrasco Sierra, M.; Navascués Martínez, J.; Sierra Martín, A.; Martín Oliva, D.; Ferrer Martín, R.; Santos Carro, A.; Calvente Iglesias, R.; Cuadros Ojeda, M.; Marín Teva, J.; |
| P1-002 |
Histamine modulates the inflammatory response of microglial cells |
|
Ferreira, R.; Santos, T.; Agasse, F.; Malva, J.; Bernardino, L.; |
| P1-003 |
Proper cerebellar development requires expression of ß1-integrin in Bergmann glia, but not in granule neurons |
|
Grammel, D.; Frick, A.; Pöschl, J.; Priller, M.; Pagella, P.; von Bueren, A.; Peraud, A.; Tonn, J.; Herms, J.; Rutkowski, S.; Kretzschmar, H.; Schüller, U.; |
| P1-004 |
The vasoactive peptide Urotensin II induces chemotaxic migration or cell-cell adhesion during gliomagenesis |
|
Lecointre, C.; Le Joncour, V.; Jarry, M.; Schouft, M.; Desrues, L.; Morin, F.; Langlois, O.; Proust, F.; Compere, V.; Gandolfo, P.; Castel, H.; |
| P1-005 |
Adenosine triphosphate acts at the P2X7 receptor to induce release and activation of matrix metalloproteinase 9 and cell migration of mixed glial cultures. |
|
Murphy, N.; Lynch, M.; |
| P1-006 |
Role of NG2 in polarity and migration of oligodendrocyte precursor cells |
|
Binamé, F.; Trotter, J.; |
| P1-007 |
Mammalian chondroitinase ABC encourages Schwann cell integration within inhibitory environments |
|
Warren, P.; Kwok, J.; Smith, M.; Muir, E.; Rogers, J.; Keynes, R.; Fawcett, J.; |
| P1-008 |
Microglia entry into the periventricular corpus callosum during early postnatal development. |
|
Wimmer, I.; Bradl, M.; Lassmann, H.; |
|
|
| Cell proliferation, lineages and differentiation |
|
|
| P1-009 |
Reactive astroglia proliferation and neurosphere formation is limited in mouse models reflecting different aspects of Alzheimer`s disease |
|
Behrendt, G.; Sirko, S.; Heinrich, C.; Tiedt, S.; Dichgans, M.; Tsai, L.; Fischer, A.; Dimou, L.; Götz, M.; |
| P1-010 |
The GPR17 receptor in oligodendroglial cells: cell heterogeneity, maturation and participation in CNS damage |
|
Boda, E.; Vigano, F.; Parolisi, R.; Fumagalli, M.; Rosa, P.; Goetz, M.; Abbracchio, M.; Dimou, L.; Buffo, A.; |
| P1-011 |
Myelination delay in MCT8 mutated patients: role of MCT8 and MCT10 in thyroid hormone transport in human oligodendrocytes |
|
Sarret, C.; Boespflug-Tanguy, O.; Capri, Y.; Cizeron, A.; Mirafzal, S.; Gonthier-Gueret, C.; Friesema, E.; Visser, T.; Vaurs-Barriere, C.; |
| P1-012 |
Platelet-derived growth factor alpha receptor is not associated with proliferation in adult human oligodendrocytes |
|
Boullerne, A.; Othman, A.; Frim, D.; Arnason, B.; |
| P1-013 |
Isoform-specific phospholipase D activation through insulin-like growth factor 1 and fetal calf serum in rat astrocytes |
|
Burkhardt, U.; Zimmermann, M.; Klein, J.; |
| P1-014 |
Response of glial precursors to embryonic brain injury |
|
Domowicz, M.; Henry, J.; Schwartz, N.; |
| P1-016 |
Glial cells pathology due to eIF2B mutations: molecular and pathophysiological approaches |
|
Huyghe, A.; Gonthier, C.; Aube, C.; Combes, P.; Fogli, A.; Boespflug-Tanguy, O.; Pain, B.; |
| P1-017 |
Regulation of astrocyte generation by the extracellular matrix molecule Tenascin-C |
|
Karus, M.; Denecke, B.; ffrench-Constant, C.; Wiese, S.; Faissner, A.; |
| P1-018 |
Activity-dependent effects on NG2-glia and subpopulations of oligodendrocyte precursors in the sensorimotor cortex |
|
Keiner, S.; Niv, F.; Witte, O.; Redecker, C.; |
| P1-019 |
The origin of the mammalian perineurium |
|
Kennett, J.; Matise, M.; Kucenas, S.; |
| P1-020 |
DCPIB, a specific inhibitor of volume regulated anion channels (VRACs), inhibits astrocyte proliferation and cell cycle progression via G1/S arrest |
|
Luo, X.; He, D.; Wei, W.; Xie, M.; Wang, W.; Yu, Z.; |
| P1-022 |
Role of mechanical stimulation in oligodendrocyte differentiation |
|
Norman, A.; Whyte, G.; Jagielska, A.; Van Vliet, K.; Guck, J.; Franklin, R.; |
| P1-023 |
Co-culture influence in proliferation and morphological characteristics of rat schwann cells and adipose stem cells |
|
Orozco, M.; Gayoso, M.; Garrosa, M.; Alcalde, I.; |
| P1-024 |
Characterization of Mash1 and Olig2 common targets in oligodendrogenesis |
|
Clavairoly, A.; Hassani, H.; Castro, D.; Galinares, L.; Armant, O.; Guillemot, F.; Parras, C.; |
| P1-025 |
GSK-3ß mediated modulation of astrocytes in the mouse optic nerve |
|
Rivera, A.; Butt, A.; |
| P1-026 |
CNS signals promote the differentiation of bone marrow-derived cells to microglia |
|
Shapiro, J.; Abutbul, S.; Monsonego, A.; |
| P1-027 |
Tracing the progeny of Sox10-expressing cells during development and in adulthood - new insights into neural crest derivatives and the progeny of NG2+ cells after adult brain injury |
|
Simon, C.; Götz, M.; Dimou, L.; |
| P1-028 |
The expression profile of oligodendrocyte precursor cell markers in development and disease |
|
Sitnikov, S.; Spitzer, S.; Na, J.; Luzhynskaya, A.; Káradóttir, R.; |
| P1-029 |
Transplantation experiments reveal an intrinsic bias of WM oligodendrocyte progenitors towards differentiation into mature oligodendrocytes |
|
Viganó, F.; Götz, M.; Dimou, L.; |
| P1-030 |
Function of the b-HLH transcription factor OLIG2 in oligodendrocyte differentiation |
|
Wegener, A.; Kerninon, C.; Deboux, C.; Maire, C.; Wegner, M.; Nait Oumesmar, B.; |
| P1-031 |
Oligodendrogenesis continues thoughout the adult mouse central nervous system |
|
Young, K.; Psachoulia, K.; Richardson, W.; |
| P1-032 |
Astroglial connexins in adult neurogenesis: Mechanistic insight from mutant mice |
|
Zhang, J.; Bedner, P.; Dobrowolski, R.; Maass, K.; Willecke, K.; Steinhäuser, C.; Theis, M.; |
| P1-113 |
Interactions of NG2 cells with other glial cells in cortical brain injury |
|
Bai, X.; Scheller, A.; Kirchhoff, F.; |
| P1-114 |
Inducible gene expression in GFAP+ progenitor cells – a novel tool to manipulate and trace neurogenesis in the adult mouse brain |
|
Bartsch, D.; Baier, V.; Pauly, R.; Baur, M.; Hermann, E.; Sahay, A.; Hen, R.; Kronenberg, G.; Weber, T.; |
| P1-115 |
Generation of functional human Schwann cells from skin-derived precursors |
|
Feinberg, K.; Dworski, S.; Paul, S.; Miller, F.; |
| P1-116 |
Comparison of bulbar and mucosal olfactory ensheathing cells using FACS and simultaneous antigenic bivariate cell cycle analysis |
|
Raisman, G.; Kueh, J.; Li, Y.; Stevens, R.; Li, D.; |
|
|
| Cell signalling |
|
|
| P1-033 |
The presumed atypcial chemokine receptor CXCR7 affects astrocytes through Gi/o proteins |
|
Engele, J.; Lipfert, J.; Kraft, R.; Ödemis, V.; |
| P1-034 |
WNTs as novel proinflammatory modulators of microglia function |
|
Halleskog, C.; Dijksterhuis, J.; Eva, L.; Schulte, G.; |
| P1-035 |
Melanin-Concentrating Hormone regulates glutamate uptake in primary cultured astrocytes |
|
Harray, S.; Calas, G.; Hermans, E.; Grisar, T.; Lakaye, B.; |
| P1-036 |
Gliogenic potential of mesenchymal stem cells isolated from human Wharton jelly |
|
Lukomska, B.; Drela, K.; Jablonska, A.; Jurga, M.; Forraz, N.; McGuckin, C.; Domanska-Janik, K.; |
| P1-037 |
NFATc3 target genes in primary astrocytes |
|
Neria, F.; Cortes, L.; Serrano-Pérez, M.; Hortelano, S.; Tranque, P.; Cano, E.; |
| P1-038 |
NCLX is the mitochondrial Na+/Ca2+ exchanger in astrocytes, modulates Ca2+ signaling and Ca2+ wave propagation |
|
Parnis, J.; Nolte, C.; Matiash, V.; Kettenmann, H.; Sekler, I.; |
| P1-039 |
Oligodendroglial S1P1 in myelination and demyelination |
|
Soliven, B.; Kim, H.; Dukala, D.; Proia, R.; Miron, V.; Ludwin, S.; Traka, M.; Antel, J.; |
| P1-040 |
Signaling processes in glioblastoma cells after sub-lethal photodynamic treatment |
|
Uzdensky, A.; Juzeniene, A.; Moan, J.; |
| P1-117 |
LPS-induced JAK/STAT pathway activation in the brain of mice: role of lipid rafts |
|
De Smedt-Peyrusse, V.; Sargueil, F.; Casenave, F.; Veena, J.; Pougnet, Y.; Mongrand, S.; Layé, S.; |
| P1-118 |
The calcium sensor STIM1 is required for store-operated calcium entry, purinergic calcium signals and functional responses in microglia |
|
Michaelis, M.; Braun, A.; Nieswandt, B.; Eilers, J.; Kraft, R.; |
| P1-119 |
Calcium independent astrocytic lipid release |
|
Smith, N.; Takano, T.; Bekar, L.; Nedergaard, M.; |
|
|
| Cytoskeleton |
|
|
| P1-041 |
Tubulin folding cofactors in ependymal cell ciliogenesis |
|
Fanarraga, M.; Serna, M.; Rodriguez, M.; Valpuesta, J.; Zabala, J.; Villegas, J.; |
|
|
| Extracellular matrix and cell adhesion molecules |
|
|
| P1-042 |
Treatment with combination of B vitamins reduces neurocan expression after cortical ablation |
|
Dacic, S.; Stojiljkovic, M.; Lavrnja, I.; Savic, D.; Parabucki, A.; Bozic, I.; Bjelobaba, I.; Laketa, D.; Nedeljkovic, N.; Rakic, L.; Pekovic, S.; |
| P1-043 |
LewisX glycans distinguish subpopulations of neural stem/progenitor cells and modulate their function |
|
Hennen, E.; Faissner, A.; |
| P1-044 |
Investigating the HSPG profiles of olfactory ensheathing cells and Schwann cells: a role in astrocyte boundary formation |
|
Higginson, J.; Thompson, S.; Santos-Silva, A.; Guimond, S.; Turnbull, J.; Barnett, S.; |
| P1-045 |
The role of matrix metalloproteinase MMP-9 in peripheral neural system regeneration |
|
Pelsoczi, P.; Monin, A.; Nadra, K.; Médard, J.; Chrast, R.; |
| P1-046 |
Reduction of fibronectin expression decreases oligodendrocyte lineage cell numbers in demyelination, but does not impair CNS remyelination |
|
Stoffels, J.; Faessler, R.; Kirchhoff, F.; Hoekstra, D.; Franklin, R.; Baron, W.; Zhao, C.; |
| P1-047 |
Different effects of chondroitinase ABC and ß-xyloside in organotypic slice cultures |
|
Strömberg, I.; Hashemian, S.; Marschinke, F.; |
| P1-048 |
Tissue Transglutaminase plays a pivotal role in astrocyte-fibronectin interactions: A novel therapeutic target to combat astrogliosis? |
|
Van Dam, A.; Van Strien, M.; Fratantoni, S.; Breve, J.; Drukarch, B.; |
|
|
| Gene expression and transcription factors |
|
|
| P1-049 |
Role of the transcription factor Sox4 in Schwann cell development |
|
Bartesaghi, L.; Arnaud, E.; Chrast, R.; |
| P1-050 |
Liver X receptors regulate cholesterol homeostasis in oligodendrocytes |
|
Hendriks, J.; Nelissen, K.; Mulder, M.; Smets, I.; Timmermans, S.; Smeets, K.; Ameloot, M.; |
| P1-051 |
HDAC1 and HDAC2 are required in Schwann cells to maintain peripheral nerve integrity |
|
Jacob, C.; Pereira, J.; Sidiropoulos, P.; Horn, M.; Welsl, H.; Somandin, C.; Yamaguchi, T.; Matthias, P.; Suter, U.; |
| P1-052 |
Cis-acting elements of the mouse Cspg4 (NG2) gene in oligodendrocyte progenitor specific transcription |
|
Medved, J.; Nishiyama, A.; |
| P1-053 |
Glia-specific mGFAP promoter directs expression preferentially to neurons in rat visual cortex in vivo |
|
Molotkov, D.; Zobova, S.; Khiroug, L.; |
| P1-054 |
Sleep deprivation induces transcriptional modifications of genes related to astrocyte-neuron lactate shuttle in astrocytes |
|
Petit, J.; Gyger, J.; Fiumelli, H.; Martin, J.; Magistretti, P.; |
| P1-055 |
Astrocyte dense-core vesicle gliosecretion is governed by REST/NRSF |
|
Prada, I.; Marchaland, J.; Podini, P.; Magrassi, L.; D'Alessandro, R.; Bezzi, P.; Meldolesi, J.; |
| P1-056 |
Transcriptome analysis of glial cells after injury highlight a distinct signature of reactive gliosis |
|
Sirko, S.; Beckervordersandforth, R.; Simon, C.; Dimou, L.; Götz, M.; |
| P1-057 |
Withdrawn |
|
|
| P1-058 |
Regulation of NF-kappaB activity in astrocytes: the effects of flavonoids at dietary-relevant concentrations |
|
Spilsbury, A.; Vauzour, D.; Spencer, J.; Rattray, M.; |
| P1-059 |
Decreased expression of neuroinflammatory markers in activated C/EBPbeta-null glial culture reduces neuronal damage in vitro. |
|
Straccia, M.; Gresa-Arribas, N.; Dentesano, G.; Ejarque-Ortiz, A.; Tusell, J.; Sola, C.; Serratosa, J.; Saura, J.; |
| P1-060 |
Elucidating Schwann cell and perineurial glia interactions in the peripheral nervous system |
|
Suarez, V.; Kennett, J.; Kucenas, S.; |
| P1-061 |
The physiological role of amyloid precursor protein in the regulation of cholesterol synthesis |
|
Wang, W.; Mutka, A.; Kolikova, J.; Prosenc, U.; Rozman, D.; Lütjohann, D.; Huttunen, H.; Tanila, H.; Ikonen, E.; |
| P1-062 |
The regulation of astrocyte morphology by morphine and dexamethasone in vitro |
|
Wlazlo, E.; Slezak, M.; Przewlocki, R.; |
| P1-120 |
Plasticity in the contralateral hemisphere after neurotrauma: gene expression profiling after hippocampal deafferentation |
|
Andersson, D.; Wilhelmsson, U.; Kubista, M.; Nilsson, M.; Stahlberg, A.; Pekna, M.; Pekny, M.; |
| P1-121 |
Withdrawn |
|
|
|
|
| Myelin |
|
|
| P1-015 |
The role of fibroblast growth factor-9 in chronically demyelinated multiple sclerosis lesions |
|
Linington, C.; Arthur, A.; Mohan, H.; Elliott, C.; Krumbholz, M.; Barnett, S.; Wekerle, H.; Hohlfeld, R.; Lassmann, H.; Meinl, E.; |
| P1-063 |
Cell-autonomous function of FGF-receptor signaling in oligodendrocytes is not inhibitory for remyelination but promotes repair after chronic demyelination |
|
Bansal, R.; Franklin, R.; Roulois, A.; Furusho, M.; |
| P1-064 |
Oligodendrocyte differentiation and axonal myelination are compromised in an in vitro model of hyperbilirubinemia |
|
Barateiro, A.; Miron, V.; Fernandes, A.; fFrench-Constant, C.; Brites, D.; |
| P1-065 |
The mice overexpressing the major central nervous system myelin protein: new data from an old model |
|
Begou, M.; Depiets, B.; Diot, C.; Giraudet, F.; Vaurs-Barriere, C.; Boespflug-Tanguy, O.; |
| P1-066 |
Netrin-1 function in myelinating oligodendrocytes assessed using an oligodendrocyte precursor cell-organotypic slice transplant model |
|
Bin, J.; Bull, S.; Kennedy, T.; |
| P1-067 |
Oligodendrocyte-like remyelinating pattern by Schwann cells in the rat spinal cord after ethidium bromide injection |
|
Bondan, E.; |
| P1-068 |
Cyclosporine increases oligodendroglial remyelination following gliotoxic injection in the brainstem of diabetic and non-diabetic rats |
|
Martins, M.; Bondan, E.; Castelo Branco, A.; |
| P1-069 |
Abnormal hyaluronan metabolism in Vanishing White Matter disease |
|
Boor, I.; Bugiani, M.; Postma, N.; Polder, E.; van Berkel, C.; Sim, F.; Scheper, G.; van der Knaap, M.; |
| P1-070 |
Astrocytic pathology explains extensive white matter cavitation in Vanishing White Matter disease |
|
Bugiani, M.; Boor, I.; Postma, N.; Polder, E.; van Berkel, C.; Scheper, G.; van der Knaap, M.; |
| P1-071 |
The molecular map of the FGF-2/Anosmin-1 system parallels the different stages of multiple sclerosis lesions |
|
Clemente, D.; Ortega, M.; Arenzana, F.; de Castro, F.; |
| P1-072 |
Deletion of the major protein of central nervous system myelin lead to mild motor impairment associated with cognitive and sensitive dysfunctions |
|
Depiets, B.; Diot, C.; Giraudet, F.; Vaurs-Barriere, C.; Boespflug-Tanguy, O.; Begou, M.; |
| P1-073 |
Myelin gene Regulatory Factor knockout delays functional recovery from spinal cord injury |
|
Duncan, G.; Plemel, J.; Hilton, B.; Liu, J.; Kramer, J.; Kim, J.; Mao, S.; Tetzlaff, W.; |
| P1-074 |
Differences in brain myelinisation in mouse recombinant inbred strains |
|
Goudriaan, A.; Smit, A.; Verheijen, M.; |
| P1-075 |
Kinesin motors that power myelination – in vivo and in vitro localization |
|
Gould, R.; Mir, F.; Livet, J.; Clavoiroly, A.; Parras, C.; Foulon-Sol, N.; Lubetzki, C.; |
| P1-076 |
Myelin phagocytosis in Multiple Sclerosis |
|
Hendrickx, D.; Schuurman, K.; Van Eden, C.; Hamann, J.; Huitinga, I.; |
| P1-077 |
Trophic factor induced-stimulation of oligodendrocyte progenitor cells after mesenchymal stem cell transplantation.Role of fgf8 in remyelination |
|
Jaramillo-Merchán, J.; Jones, J.; Ivorra, J.; Munoz-Ballester, C.; Moltó, M.; Martínez, S.; |
| P1-078 |
Withdrawn |
|
|
| P1-079 |
LINGO-1 inhibits oligodendrocyte differentiation and myelination through a self-interaction in trans |
|
Krauss, R.; Jepson, S.; Vought, B.; Gross, C.; Gan, L.; Austen, D.; Frantz, J.; Zwahlen, J.; Lowe, D.; Markland, W.; |
| P1-080 |
miRNA-mediated regulation of myelin-associated glicoprotein by retinoic acid in Schwann cells. |
|
Latasa, M.; Moran-Gonzalez, A.; Ituero, M.; Cosgaya, J.; |
| P1-081 |
Engineering nanofibers for oligodendrocyte myelination:fiber diameter is sufficient to initiate wrapping |
|
Lee-Sertorio, S.; Chong, S.; Leach, M.; Mellon, S.; Tuck, S.; Feng, Z.; Corey, J.; Chan, J.; |
| P1-082 |
The growth factors BDNF and Neuregulin induce NMDA receptor dependent myelination by oligodendrocytes, employing Akt and CREB signalling |
|
Lundgaard, I.; Luzhynskaya, A.; Stockley, J.; Wang, Z.; ffrench-Constant, C.; Atwell, D.; Karadottir, R.; |
| P1-083 |
DNA methylation in CNS myelination and remyelination |
|
Ma, D.; Huang, J.; Huynh, J.; Casaccia, P.; Zhao, C.; Franklin, R.; |
| P1-084 |
Expression of ER stress- and hypoxia-associated molecules in grey matter lesions in Multiple Sclerosis. |
|
McMahon, J.; McQuaid, S.; Reynolds, R.; Fitzgerald, U.; |
| P1-085 |
Effect of conditional knockout of Stat3 in astrocytes on CNS remyelination |
|
Monteiro de Castro, G.; Frend, H.; Ma, D.; Sofroniew, M.; Zhao, C.; Franklin, R.; |
| P1-086 |
Claudin k is specifically expressed in myelin of developing and adult zebrafish |
|
Muenzel, J.; Schaefer, K.; Obirei, B.; Brösamle, C.; Burton, E.; Kuscha, V.; Becker, C.; Williams, A.; Becker, T.; |
| P1-087 |
Megalin distribution parallels the histopathological variations occurred during the time course of Experimental Autoimmune Encephalomyelitis and in different stages of Multiple Sclerosis lesions |
|
Ortega, M.; Clemente, D.; de Castro, F.; |
| P1-088 |
Actin polymerization is essential for Myelin sheath fragmentation during wallerian degeneration |
|
Park, H.; Jung, J.; Cai, W.; Lee, H.; Pellegatta, M.; Shin, Y.; Jang, S.; Suh, S.; Wrabetz, L.; Feltri, M.; |
| P1-089 |
Chronic swelling and abnormal myelination during secondary degeneration, following partial injury to rat optic nerve |
|
Payne, S.; Bartlett, C.; Harvey, A.; Dunlop, S.; Fitzgerald, M.; |
| P1-090 |
Inhibition of oligodendrocyte precursor cell maturation and process complexity by myelin |
|
Plemel, J.; Manesh, S.; Richards, B.; Anderson, L.; Sparling, J.; Tetzlaff, W.; |
| P1-091 |
Aging preferentially affects molecular pathways implicated in development and disease of myelinating glial cells |
|
Verdier, V.; Csardi, G.; de Preux Charles, A.; Medard, J.; Verheijen, M.; Bergmann, S.; Chrast, R.; |
| P1-092 |
Generalised and neural restricted peroxisomal MFP2 deficiency causes demyelination and motoric deficits but neuroinflammatory responses are distinct |
|
Verheijden, S.; Baes, M.; |
| P1-093 |
Oligodendrocyte maturation and proper CNS myelination require the lipid phosphatase Fig4 |
|
Winters, J.; Lenk, G.; Giger-Mateeva, V.; Shrager, P.; Meisler, M.; Giger, R.; |
| P1-122 |
An extensive in vitro and ex vivo screening of registered drugs to identify new enhancer of endogenous remyelination |
|
Eleuteri, C.; Veroni, C.; Salvetti, M.; Agresti, C.; |
| P1-123 |
Myelin-associated peroxisomes in the maintenance of paranodal loops and axonal integrity |
|
Kassmann, C.; Quintes, S.; Rietdorf, J.; Möbius, W.; Sereda, M.; Baes, M.; Nave, K.; |
| P1-124 |
CNS live imaging reveals a new mechanism of myelination: The liquid croissant model |
|
Sobottka, B.; Ziegler, U.; Kaech, A.; Becher, B.; Goebels, N.; |
| P1-128 |
Characterisation of markers of endoplasmic reticulum stress in an experimental allergic encephalomyelitis model of multiple sclerosis |
|
Ní Fhlathartaigh, M.; McMahon, J.; Reynolds, R.; FitzGerald, U.; |
|
|
| Transmitter receptors, ion channels and gap junctions |
|
|
| P1-094 |
Evidence of a role for glial TASK-1 potassium channels in K+ regulation and axonal excitability in mouse CNS white matter |
|
Bay, V.; Butt, A.; |
| P1-095 |
Co-expression of Kir4.1 and Kir5.1 channels in white matter glia |
|
Brasko, C.; Bay, V.; Butt, A.; |
| P1-096 |
Down-regulation of GABAA receptor via promiscuity with the vasoactive peptide urotensin II receptor: a key event for astrocyte plasticity? |
|
Castel, H.; Desrues, L.; Lefebvre, T.; Lecointre, C.; Morin, F.; Tonon, M.; Gandolfo, P.; |
| P1-097 |
Quantification and localization of the EAAC1 glutamate transporter in brain |
|
Danbolt, N.; Holmseth, S.; Dehnes, Y.; Huang, Y.; Follin-Arbelet, V.; Grutle, N.; Plachez, C.; Furness, D.; Zhou, Y.; Bergles, D.; Lehre, K.; |
| P1-098 |
Subcellular localization of ryanodine receptor isoform mRNAs in normal rat sciatic nerve and expression of these isoforms during sciatic nerve injury. |
|
Dent, M.; Martinez-Gomez, A.; |
| P1-099 |
Contrary effects of astrocytic Cx43 and Cx30 on adult hippocampal neurogenesis |
|
Frahm, C.; Stahr, A.; Witte, O.; |
| P1-100 |
Connexin-43 inhibits the oncogenic activity of c-Src in C6 glioma cells |
|
Gangoso, E.; Herrero-González, S.; Giaume, C.; Naus, C.; Medina, J.; Tabernero, A.; |
| P1-101 |
Astrocytes are heterogeneous with respect to gap junction coupling |
|
Höft, S.; Griemsmann, S.; Bedner, P.; Zhang, J.; Jabs, R.; Theis, M.; Cope, D.; Crunelli, V.; Seifert, G.; Steinhäuser, C.; |
| P1-102 |
Studying turnover kinetics of AMPA receptors in Bergmann glia in vivo |
|
Jahn, H.; Saab, A.; Kirchhoff, F.; |
| P1-103 |
Nicotine inhibits activation of microglial proton currents via interactions with alpha-7 acetylcholine receptors |
|
Kobayashi, A.; Narahashi, T.; Noda, M.; |
| P1-104 |
Gap junction mediated propagation of sodium between astrocytes |
|
Langer, J.; Stephan, J.; Theis, M.; Rose, C.; |
| P1-105 |
Reduced Connexin47 expression in the forebrain of Connexin43 and Connexin32 double deficient mice is accompanied by dysmyelination, astrogliosis and microglial activation |
|
May, D.; Tress, O.; Willecke, K.; |
| P1-106 |
Heterogeneous expression pattern of GLAST and GLT-1 during postnatal development of the hippocampus |
|
Rduch, A.; Rose, C.; Kafitz, K.; |
| P1-107 |
HIF-1 and c-Src are involved in the effect of connexin-43 and endothelin-1 on the rate of glucose uptake in astrocytes |
|
Tabernero, A.; Valle-Casuso, J.; Medina, J.; |
| P1-108 |
Adrenergic and metabotropic glutamate receptors mediate calcium signals in CNS white matter glia |
|
Vanzulli, I.; Butt, A.; |
| P1-109 |
pH-sensitive K+ channels in freshly isolated murine hippocampal astrocytes |
|
Weller, J.; Seifert, G.; Steinhäuser, C.; |
| P1-110 |
The roles of astrocytic GABAA and GABAB receptor activation on membrane potential: study by using gramicidin perforated-patch recording from rat hippocampal astrocytes in slice |
|
Xie, M.; Wang, W.; Kimelberg, H.; Zhou, M.; |
| P1-111 |
Evidence against a role of the betaine-GABA transporter (BGT1, slc6a12) in the control of GABA receptor activation |
|
Zhou, Y.; Holmseth, S.; Holen, T.; Danbolt, N.; |
| P1-125 |
Lack of evidence in favor of phosphorylation-dependent gating of AQP4 |
|
MacAulay, N.; Fenton, R.; Assentoft, M.; |
| P1-126 |
Defect in astrocytic MLC1 protein reduces chloride currents involved in volume regulation |
|
Ridder, M.; Boor, I.; Lodder, J.; Postma, N.; Scheper, G.; Mansvelder, H.; van der Knaap, M.; |
| P1-127 |
Paradoxical depolarization of astrocyte membrane potential in extracellular potassium concentrations lower than physiologic in rat hippocampus slices |
|
Zhou, M.; Cao, J.; Ma, B.; |
|
|
|
|
| Poster session 2 |
|
|
| Degenerative disease, toxicity and neuroprotection |
|
|
| P2-001 |
Amyloid beta oligomers induce direct endoplasmic reticulum Ca2+ release and stress in astrocytes, and cause astrogliosis |
|
Alberdi, E.; Wyssenbach, A.; Alberdi, M.; Sánchez-Gómez, M.; Cavaliere, F.; Rodríguez-Arellano, J.; Verkhratsky, A.; Matute, C.; |
| P2-002 |
The glyoxalase system in astrocytes and neurons |
|
Allaman, I.; Bélanger, M.; Laroche, T.; Magistretti, P.; |
| P2-003 |
Apolipoprotein D mediates autocrine protection of astrocytes, contributing to the functional maintenance of paraquat-challenged dopaminergic systems |
|
Bajo, R.; Ganfornina, L.; Sánchez, D.; |
| P2-004 |
Induced stabilization of inflammatory cytokine mRNAs in eIF2B–mutated primary microglia cells |
|
Barbi, M.; Elroy-Stein, O.; |
| P2-005 |
Resveratrol prevents ammonia toxicity in astroglial cells |
|
Bobermin, L.; Quincozes-Santos, A.; Guerra, M.; Leite, M.; Souza, D.; Gottfried, C.; Goncalves, C.; |
| P2-006 |
Microglial TREM2 receptor has a protective role for the nigrostriatal system |
|
Bodea, L.; Linnartz, B.; Colonna, M.; Neumann, H.; |
| P2-007 |
Pathological mutations in megalencephalic leukoencephalopathy with subcortical cysts protein 1 (MLC1) impair astrocyte response to hypoosmotic stress: new insight for MLC pathogenesis |
|
Brignone, M.; Lanciotti, A.; Molinari, P.; Visentin, S.; De Nuccio, C.; Macchia, G.; Aloisi, F.; Petrucci, T.; Ambrosini, E.; |
| P2-008 |
Microglial phagocytosis mediates neuronal death in inflammatory neurodegeneration |
|
Brown, G.; |
| P2-009 |
Role and function of microglia cells in autoimmune CNS inflammation |
|
Bruttger, J.; Waisman, A.; |
| P2-010 |
Knockdown of MLC1 in primary astrocytes causes cell vacuolation: a cell model of megalencephalic leukoencephalopathy with subcortical cysts |
|
Capdevila-Nortes, X.; Duarri, A.; López de Heredia, M.; Ridder, M.; Montolio, M.; López-Hernández, T.; Martínez, A.; Nunes, V.; van der Knaap, M.; Estévez, R.; |
| P2-011 |
Potential role of protein SUMOylation in the neuroprotective effect of curcumin against amyloid ß-induced toxicity |
|
Cimarosti, H.; Hoppe, J.; Salbego, C.; Rattray, M.; |
| P2-012 |
Early alterations in cytokine expression highlight the potential for glial influence in the developing stages of Alzheimer's disease |
|
Colby-Milley, J.; Cavanagh, C.; Farso, M.; Chabot, J.; Krantic, S.; Quirion, R.; |
| P2-013 |
Axonal autonomous and glial-dependent processes participate in axonal degeneration |
|
Court, F.; Jara, J.; Cisterna, B.; Catenaccio, A.; |
| P2-014 |
Fluoxetine decreases microglial activation and density in a concentration dependent manner |
|
Dhami, K.; Todd, K.; |
| P2-015 |
The expression of aquaporin-4 in the astrocytic swelling is dependent on the Tonicity-responsive enhancer-binding protein (TonEBP) |
|
Nara, S.; Joon Woon, K.; Young Sook, L.; Sang Do, L.; Dong Woon, K.; |
| P2-016 |
Influence of inflammation on the regulation of glutamate transporters in primary cultured astrocytes and microglia during amyotrophic lateral sclerosis |
|
Dumont, A.; Berger, J.; Goursaud, S.; Hermans, E.; |
| P2-017 |
Proteomic analysis of microglial cultures treated with amyloid peptides |
|
Fabrizi, C.; Pompili, E.; Correani, V.; Di Francesco, L.; Mazzanti, M.; Maras, B.; Schinina, M.; Fumagalli, L.; |
| P2-018 |
Oxidative stress in astrocytes following partial injury to a CNS tract |
|
Fitzgerald, M.; Wells, J.; Kilburn, M.; Bartlett, C.; Shaw, J.; Harvey, A.; Dunlop, S.; |
| P2-019 |
Ezrin immunoreactivity is associated with the severity of Alzheimer’s disease and with altered astrocyte morphology |
|
Geiger, K.; Bittner, J.; Ewald, C.; Kraft, J.; Derouiche, A.; Temme, A.; |
| P2-020 |
Adenosine regulation of glycolisis during microglial activation |
|
Gimeno-Bayon, F.; Pujadas, L.; Martinez, M.; Espinosa, F.; Ortega, F.; Rodriguez, M.; Mahy, N.; |
| P2-021 |
Intraperitoneal administration of [stearyl-norleucine17] vasoactive intestinal peptide (snv) upregulates the activity of the glutamate transporter glt-1 and improves the motor functions in a rat model of amyotrophic lateral sclerosis (hsod1g93a) |
|
Goursaud, S.; Dumont, A.; Hermans, E.; |
| P2-022 |
Withdrawn |
|
|
| P2-023 |
Short-term alterations in hippocampal glutamate transport system caused by one-single neonatal seizure episode: implications on behavioral performance in adulthood |
|
Hansel, G.; Moreira, J.; Siqueira, L.; Lague, V.; Porciuncula, L.; Vinade, L.; Souza, D.; |
| P2-024 |
Induction of resolution in glia as a treatment strategy for Alzheimer’s disease |
|
Hjorth, E.; Zhu, M.; Schultzberg, M.; |
| P2-025 |
Mitochondrial dysfunction is linked on phosphorylation of p38 and Akt level in PINK1-deficiency astrocytes. |
|
Choi, I.; Kim, J.; Joe, E.; |
| P2-026 |
Early activation of microglia has a central role in the disease pathogenesis of progressive myoclonus epilepsy, EPM1 |
|
Körber, I.; Joensuu, T.; Lehesjoki, A.; Kopra, O.; |
| P2-027 |
Retrovirus co-infection in a prion disease mouse model leads to altered gliosis |
|
Krasemann, S.; Neumann, M.; Stocking, C.; Glatzel, M.; |
| P2-028 |
Ineffective degradation of dead cells engulfed by astrocytes |
|
Loov, C.; Hillered, L.; Erlandsson, A.; |
| P2-029 |
Mutant GlialCAM causes megalencephalic leukoencephalopathy with subcortical cysts, benign familial macrocephaly, and macrocephaly with retardation and autism |
|
López-Hernández, T.; Ridder, M.; Montolio, M.; Capdevila-Nortes, X.; Sirisi, S.; Duarri, A.; Scheper, G.; Martínez, A.; van der Knaap, M.; Estévez, R.; |
| P2-030 |
Astrocytic response to oxidative stress: evidences from in vitro and in vivo studies |
|
Macco, R.; Pelizzoni, I.; Arbel-Ornath, M.; Codazzi, F.; Zacchetti, D.; Bacskai, B.; Grohovaz, F.; |
| P2-031 |
KATP channel activation modulates the pro-inflammatory activity of reactive microglia |
|
Martinez, M.; Vidal-Taboada, J.; Ortega, F.; Mahy, N.; Rodriguez, M.; |
| P2-032 |
System xc- deficient mice show decreased susceptibility for limbic seizures as well as for 6-OHDA-induced neurodegeneration |
|
Massie, A.; Schallier, A.; De Bundel, D.; Kim, S.; Fernando, R.; Kobayashi, S.; Miyashita, H.; Beck, H.; Van Liefferinge, J.; Loyens, E.; Vermoesen, K.; Bannai, S.; Conrad, M.; Plesnila, N.; Sato, H.; Michotte, Y.; Smolders, I.; |
| P2-033 |
Modulation of glutamate homeostasis during primary demyelination and remyelination |
|
Mato, S.; Bernal-Chico, A.; Matute, C.; |
| P2-034 |
Morphological approach to assess the involvement of glial cells in the prion propagation |
|
Monzón, M.; Salomón, R.; Sarasa, R.; Badiola, J.; |
| P2-035 |
Dietary omega-3 fatty acids prevent memory deficits caused by a single neonatal seizure episode: relevance for early glial alterations in hippocampal glutamatergic system |
|
Moreira, J.; Siqueira, L.; Lague, V.; Muller, A.; Porciuncula, L.; Viandé, L.; Souza, D.; |
| P2-036 |
Effects of intracerebroventricular insulin treatment in aged and young rats: inflammatory response and cognition performance |
|
Muller, A.; Haas, C.; Kalinine, E.; Zimmer, E.; Moreira, J.; Souza, D.; Oses, J.; Gnoatto, J.; Portela, L.; |
| P2-037 |
Mitochondrial anti-oxidants levels are increased in astrocytes in active MS lesions |
|
Nijland, P.; Witte, M.; Drexhage, J.; van 't Hof, B.; Rijerkerk, A.; de Vries, E.; van Horssen, J.; |
| P2-038 |
Functional, morphological and genomic effects of Rho kinase inhibitors on astrocytes |
|
O'Shea, R.; Lau, C.; Perreau, V.; Cate, H.; Cheung, N.; Beart, P.; |
| P2-039 |
Does glutamate contribute to the downregulation of the Kir4.1 channel during hepatic encephalopathy? |
|
Obara-Michlewska, M.; Szeliga, M.; Norenberg, M.; Albrecht, J.; |
| P2-040 |
Molecular mechanisms of axonal degeneration in multiple sclerosis |
|
Petratos, S.; Ozturk, E.; Azari, M.; McDonald, C.; Moussa, L.; Strittmatter, S.; Bernard, C.; |
| P2-041 |
Oxidative stress, mitochondria depletion and oxidation in the peroxisomal disease adrenoleukodystrophy |
|
Pujol, A.; Fourcade, S.; Galino, J.; Morato, L.; Erauskin, J.; Ruiz, M.; Schlüter, A.; Martínez-García, J.; Naudi, A.; Aubourg, P.; Ferrer, I.; Villarroya, F.; |
| P2-042 |
Resveratrol modulates astroglial functions |
|
Quincozes-Santos, A.; Bobermin, L.; Goncalves, C.; Gottfried, C.; Souza, D.; |
| P2-043 |
Toxic effects of branched-chain and very long chain fatty acids on cellular reactive oxygen generation and calcium dysregulation of ALDP-deficient astrocytes |
|
Reiser, G.; Pujol, A.; Kruska, N.; |
| P2-044 |
Astroglia potentiates the neuroprotective-to-cytotoxic transition of excitotoxicity-induced microgliosis in rat hippocampus |
|
Rodriguez, M.; Batlle, M.; Ferri, L.; Andrade, C.; Ortega, F.; Pugliese, M.; Mahy, N.; |
| P2-045 |
Glioprotective impact of cell-permeable peptides in preclinical models of Amyotrophic Lateral Sclerosis |
|
Rossi, D.; Martorana, F.; Valori, C.; Roncoroni, C.; Bergamaschi, C.; Volterra, A.; Bezzi, P.; Brambilla, L.; |
| P2-046 |
Molecular mechanisms of MLC1 and GLIALCAM mutations in megalencephalic leukoencephalopathy with subcortical cysts |
|
Sirisi, S.; López-Hernández, T.; Capdevila-Nortes, X.; Montolio, M.; Fernández-Duecas, V.; van der Knaap, M.; Ciruela, F.; Ferrer, I.; Nunes, V.; Estévez, R.; |
| P2-047 |
Photo-cytotoxicity in oligodendrocyte precursor cells (OPCs): implications for live cell imaging |
|
Stockley, J.; Lundgaard, I.; Luzhynskaya, A.; Spitzer, S.; Franklin, R.; Káradóttir, R.; |
| P2-048 |
Docosahexaenoic acid protects against Parkinson’s disease |
|
Tang, K.; |
| P2-049 |
Glial defective lipid metabolism causes neurological defects that are partially rescued by high fat diet |
|
Verheijen, M.; Camargo, N.; Loos, M.; Gutmann, D.; Brouwers, J.; Helms, B.; Smit, A.; |
| P2-050 |
Aging, spatial memory decline and astrocytic changes in the molecular layer of murine dentate gyrus |
|
Viana, L.; Diniz, D.; Foro, C.; Picanco-Diniz, C.; |
| P2-051 |
Presence of sulfatide in neurons of arylsulfatase A-deficient mice lacking the apolipoprotein E |
|
Wang-Eckhardt, L.; van Zyl, R.; Gieselmann, V.; Eckhardt, M.; |
| P2-052 |
Attenuation of astrocyte activation and reactive gliosis affect disease progression in a mouse model of amyotrophic lateral sclerosis (ALS) |
|
Wilhelmsson, U.; Sihlblom, C.; Smith, P.; Jockusch, H.; Bartsch, J.; Pekny, M.; |
| P2-053 |
The demise of the blood-brain barrier in amyotrophic lateral sclerosis and the role of astrocytes |
|
Bataveljic, D.; Korenic, A.; Todorovic, N.; Moghaddam-Amiry, M.; Andjus, P.; |
| P2-115 |
Translating pharmacological inhibition of microglial activation in cell culture to reductions in 3H-PK11195 binding in vivo |
|
Quinton, M.; Saraswat, L.; Lew, R.; Bianco, F.; Burdi, D.; Hardy, L.; Hopkins, S.; |
| P2-116 |
Decreased degradation of nitrated amyloid-ß in murine BV-2 cells |
|
Schoenherr, C.; Kummer, M.; Heneka, M.; |
| P2-117 |
Expression of human mutated tau in astrocyte leads to dysfunction and accelerates disease progression in AD animal model |
|
Sooliman, M.; Rosenmann, H.; Frenkel, D.; |
| P2-118 |
Antiepileptogenic effects of inducible nitric oxide synthase inhibitor, 1400W and post-synaptic density 95 blocking peptide in a kainate mouse model of epilepsy |
|
Thippeswamy, T.; Burquest, C.; Staunton, C.; Sills, G.; Salter, M.; Tymianski, M.; Beamer, E.; |
| P2-125 |
Deregulation of immune-related miRNAs in Alzheimer’s disease |
|
Cardoso, A.; Guedes, J.; Pereira de Almeida, L.; Pedroso de Lima, M.; |
| P2-126 |
Differential effects of amyloid-ß on microglial phagocytic and secretory function from neonatal and aged rats. |
|
Cowley, T.; Minogue, A.; Lynch, M.; |
| P2-127 |
Induction of Siglec-H on microglia by interferon-gamma and its involvement in phagocytosis |
|
Kopatz, J.; Neumann, H.; |
| P2-128 |
Desialylation of neuronal processes leads to complement opsonization and complement receptor-3 dependent removal by microglia |
|
Linnartz, B.; Bodea, L.; Tenner, A.; Neumann, H.; |
| P2-129 |
Human microglia generated from induced pluripotent stem cells as an inflammatory model system for SOD1-mediated amyotrophic lateral sclerosis |
|
Roy, K.; Friese, J.; Clement, A.; Peitz, M.; Behl, C.; Brüstle, O.; Neumann, H.; |
|
|
| Neurovascular interactions |
|
|
| P2-054 |
Brain vascular pressure increase opens the blood-brain barrier in absence of astroglial connexins |
|
Cohen-Salmon, M.; Ezan, P.; André, P.; Cisternino, S.; Saubaméa, B.; Giaume, C.; |
| P2-055 |
D-serine contributes to astrocyte-mediated cerebral vasodilation through NMDA receptor activation |
|
LeMaistre, J.; Anderson, H.; Anderson, C.; |
| P2-056 |
Astrocyte derived retinoic acid induces the blood-brain barrier during human brain development |
|
Mizee, M.; Wooldrik, D.; Lakeman, K.; van het Hof, B.; Drexhage, J.; Bugiani, M.; Aronica, E.; Mebius, R.; Prat, A.; de Vries, E.; Reijerkerk, A.; |
| P2-057 |
Glial-conditional deletion of the Aqp4 gene reduces blood-brain water uptake: evidence for barrier function of perivascular astrocyte endfeet |
|
Vindedal, G.; Haj-Yasein, N.; Eilert-Olsen, M.; Gundersen, G.; Klungland, A.; Thoren, A.; Burkhardt, J.; Ottersen, O.; Nagelhus, E.; |
| P2-119 |
Endothelial derived nitric oxide increases lactate production in astrocytes via Hif-1alpha activation |
|
Jöhren, O.; Pellerin, L.; Mesters, J.; Brix, B.; |
| P2-120 |
Metabotropic glutamate receptor mGluR5 is not involved in the early neurovascular response |
|
Weber, B.; Calcinaghi, N.; Jolivet, R.; Gasparini, F.; Buck, A.; Wyss, M.; |
|
|
| Regeneration and repair |
|
|
| P2-058 |
Non-viral gene knockdown of glial scar glycosaminoglycan synthesis |
|
Abu-Rub, M.; Kraskiewicz, H.; Naughton, M.; Newland, B.; Madigan, N.; McMahon, S.; Wang, W.; Windebank, A.; Pandit, A.; |
| P2-059 |
Features of the lizard (Gallotia galloti) conus papillaris during the ontogeny and after optic nerve transection. |
|
Alfayate, C.; Santos, E.; Yanes, C.; Romero, M.; Monzon, M.; |
| P2-060 |
Human fetal spinal stem cells improve locomotor function after spinal cord injury in the rat |
|
Amemori, T.; Romanyuk, N.; Jenderova, P.; Herynek, V.; Turnovcova, K.; Marekova, D.; Kapcalova, M.; Price, J.; Sykova, E.; |
| P2-061 |
Skin-derived precursors differentiated into Schwann cells (SKP-SCs) transplanted eight weeks post spinal cord contusion improve recovery of motor and bladder function after injury |
|
Assinck, P.; Dworski, S.; Sparling, J.; Duncan, G.; Wu, D.; Jiang, Y.; Liu, J.; Lam, C.; Kwon, B.; Miller, F.; Tetzlaff, W.; |
| P2-062 |
In vivo live imaging of astroglial recruitment upon acute cortical injury |
|
Bardehle, S.; Meyer-Luehmann, M.; Dimou, L.; Götz, M.; |
| P2-063 |
Microglial precursors as vehicle of neurotrophin-3 for spinal cord repair in experimental autoimmune encephalomyelitis |
|
Beutner, C.; Lenerz, V.; Dann, A.; Roy, K.; Napoli, I.; Ruegsegger, C.; Prinz, M.; Neumann, H.; |
| P2-064 |
Therapeutic strategies in a novel in vitro model of spinal cord injury |
|
Boomkamp, S.; Houslay, M.; Riehle, M.; Olson, M.; Barnett, S.; |
| P2-065 |
The development of an implantable 3D scaffold to treat spinal cord injury |
|
Donoghue, P.; Lamond, R.; Chew, S.; Sun, T.; Riehle, M.; Barnett, S.; |
| P2-066 |
p53 plays a dual role in the regulation of the extrinsic and intrinsic responses affecting the recovery of motor function following spinal cord injury |
|
Floriddia, E.; Tedeschi, A.; Wuttke, A.; Rathore, K.; Quadrato, G.; Lueckmann, J.; Di Giovanni, S.; |
| P2-067 |
Role of Apolipoprotein D in myelin phagocytosis upon injury |
|
Garcia-Mateo, N.; Sanchez, D.; Lillo, C.; Ganfornina, M.; |
| P2-068 |
A novel in vitro model of adult reactive astroglia allows probing for efficient instruction of neurogenesis |
|
Gascon, S.; Heinrich, C.; Berninger, B.; Götz, M.; |
| P2-069 |
Glutamate signalling to oligodendrocyte precursor cells during remyelination |
|
Gautier, H.; Franklin, R.; Káradóttir, R.; |
| P2-070 |
Aligned Schwann cells within 3D tissue-like gels provide guidance to regenerating neurites |
|
Georgiou, M.; East, E.; Loughlin, J.; Golding, J.; Phillips, J.; |
| P2-071 |
Role of oligodendroglial NF-kappaB RelA in the pathology of the naive and lesioned mouse optic nerve |
|
Haenold, R.; Kretz, A.; Nave, K.; Witte, O.; Weih, F.; |
| P2-072 |
Nestin-GFP positive glia after stab wound injury in the adult mouse cerebral cortex |
|
Sirko, S.; Haupt, C.; Götz, M.; |
| P2-073 |
The Glial Regenerative Response to Central Nervous System Injury Is Enabled by Pros-Notch and Pros-NF-kB Feedback |
|
Hidalgo, A.; Kato, K.; Forero, M.; Fenton, J.; Fennell, S.; |
| P2-074 |
Extended differentation potential of polydendrocytes in the mouse cortex after brain injury |
|
Honsa, P.; Pivonkova, H.; Anderova, M.; |
| P2-075 |
Lysophosphatidic acid signaling pathway influences on adipose tissue-derived mesenchymal stem cells for using in EAE |
|
Hurtado Guerrero, I.; García Díaz, B.; Gómez Conde, A.; Leyva, L.; Fernández, O.; Rodríguez de Fonseca, F.; Estivill Torrús, G.; |
| P2-076 |
Involvement of Placental Growth Factor in Wallerian degeneration |
|
Chaballe, L.; Moons, L.; Carmeliet, P.; Schoenen, J.; Franzen, R.; |
| P2-077 |
Oligodendrocyte progenitor cell activation mediated by mesenchymal stem cell transplantation, restores axon potential velocity in a chronic demyelinating mouse model |
|
Jones, J.; Jaramillo-Merchán, J.; Pastor, D.; Viso-León, M.; Geijo-Barrientos, E.; Martinez, S.; |
| P2-078 |
Identification of astrocytic factors that regulate myelination |
|
Kiray, H.; Nash, B.; Barnett, S.; |
| P2-079 |
TCF7L2 expression is present in early but not in chronic MS lesions |
|
Kuhlmann, T.; Lürbke, A.; Cui, Q.; Brück, W.; Antel, J.; |
| P2-080 |
Progesterone attenuates astro-and microgliosis and enhances oligodendrocyte differentiation following spinal cord injury |
|
Labombarda, F.; Gonzalez, S.; Guennoun, R.; Shumacher, M.; De Nicola, A.; |
| P2-081 |
Developing a glial cell seeded biodegradable construct to enhance axonal alignment and outgrowth following a spinal cord injury |
|
Lamond, R.; Donoghue, P.; Gadegaard, N.; Reihle, M.; Barnett, S.; |
| P2-082 |
Exposure to environmental enrichment during development, modulates cerebral cortex components of the postlesional astroglia response in rats |
|
Lanosa, X.; Santacroce, I.; Colombo, J.; |
| P2-083 |
Pax2 positive astrocytes in the goldfish optic nerve head |
|
Lara, J.; Parrilla, M.; Lillo, C.; Arévalo, R.; Aijón, J.; Velasco, A.; |
| P2-084 |
Tissue type Plasminogen Activator (tPA) promotes functional recovery after compressive spinal cord injury in rats |
|
Lemarchant, S.; Hebert, M.; Gauberti, M.; Chazalviel, L.; Maubert, E.; Ali, C.; Agin, V.; Emery, E.; Vivien, D.; |
| P2-085 |
Interleukin-13 stimulates neurite outgrowth in vitro in primary neurons and organotypic brain slices while it worsens clinical outcome after spinal cord injury in vivo |
|
Lemmens, E.; Vidal Vera, P.; Nelissen, S.; Vangansewinkel, T.; Hendrix, S.; |
| P2-086 |
Nrf2 activators: a novel strategy to promote oligodendrocyte survival in Multiple Sclerosis? |
|
Lim, J.; van der Pol, S.; Drexhage, J.; de Vries, E.; van Horssen, J.; |
| P2-087 |
Human olfactory lamina propria derived mesenchymal stem cells enhance glia proliferation and differentiation |
|
Lindsay, S.; Mounford, J.; Clark, L.; Sheikh, S.; Robertson, A.; Barnett, S.; |
| P2-088 |
Secreted protein acidic rich in cysteine regulates the microglial and astroglial response to central nervous system injury |
|
Lloyd-Burton, S.; Roskams, A.; |
| P2-089 |
Protective effect of TNF receptor 2 activation on primary oligodendrocytes |
|
Maier, O.; Fischer, R.; Wajant, H.; Scheurich, P.; Pfizenmaier, K.; |
| P2-090 |
Lentivirus-mediated expression of the human neural cell adhesion molecule L1 for ex vivo and in vivo gene therapy of the lesioned CNS |
|
Matsas, R.; Papastefanaki, F.; Laspa, M.; Gaitanou, M.; Schachner, M.; |
| P2-091 |
Role of Methylthioadenosine in promoting remyelination and preventing demyelination: bases for the treatment of Multiple Sclerosis |
|
Moreno, B.; Di Penta, A.; Fernández, B.; Escala, N.; Villoslada, P.; |
| P2-092 |
Perilesional nestin-expressing reactive astrocytes and cortical tissue recovery in a novel closed-head injury model, photo injury |
|
Morita, M.; |
| P2-093 |
Withdrawn |
|
|
| P2-094 |
Withdrawn |
|
|
| P2-095 |
Conditional deletion of b1-integrins – a mouse model to investigate pathophysiological consequences of chronic reactive gliosis |
|
Robel, S.; Goetz, M.; Sontheimer, H.; |
| P2-096 |
Exogenous Wnts induce an injury-like response in mouse spinal cord |
|
Rodriguez, J.; Levine, J.; |
| P2-097 |
Olfactory Ensheathing Cells show a phagocytic response following exposure to myelin |
|
Saavedra Pascual, R.; Roet, K.; de Winter, F.; Hendrickx, D.; de Bree, F.; Franssen, E.; Bossers, K.; Verhaagen, J.; |
| P2-098 |
Ephrin B3 negatively regulates oligodendrocyte maturation and CNS remyelination |
|
Syed, Y.; Hand, E.; Wiebke, M.; Nave, K.; Kotter, M.; |
| P2-099 |
Identification and characterization of microenviromental niches involved in OPC fate determination during CNS remyelination |
|
Ulanska, J.; Zhao, C.; Pohl, H.; Suter, U.; Kaminska, B.; Franklin, R.; Zawadzka, M.; |
| P2-100 |
Tissue Transglutaminase promotes myelination by oligodendrocytes in vitro and in vivo: of therapeutic interest for Multiple Sclerosis |
|
Van Dam, A.; Van Strien, M.; Baron, W.; Bauer, J.; |
| P2-101 |
Macrophage deficiency in osteopetrotic mice impairs CNS remyelination |
|
Wylot, B.; Sielska, M.; Kaminska, B.; Zawadzka, M.; |
| P2-102 |
Recovery of pupillary light reflex but not of behavioural responses occurs after complete optic nerve transection in the lizard Gallotia galloti |
|
Yanes, C.; Santos, E.; Romero-Alemán, M.; Armas, N.; Alfayate, M.; Molina-Borja, M.; Monzón-Mayor, M.; |
| P2-103 |
Sema3A and 3F alter remyelination in the brain by their action on migration |
|
Zhang, H.; Boyd, A.; Williams, A.; |
| P2-114 |
Cx43 mirrors the spatial and temporal dynamics of GFAP biomarker in brain needle injury |
|
Bechberger, J.; Theodoric, N.; Sin, W.; |
| P2-121 |
Olesoxime promotes endogenous functional remyelination in mice by inducing oligodendrocyte maturation and myelination |
|
Cayre, M.; Magalon, K.; Zimmer, C.; Khaldi, J.; Bourbon, C.; Robles, I.; Tardif, G.; Viola, A.; Pruss, R.; Bordet, T.; Durbec, P.; |
| P2-122 |
Extruded collagen fibres : an in vivo platform for cell migration and topographical guidance of axons |
|
Daly, W.; Breen, B.; Abu Rub, M.; Zeugolis, D.; O Connell, C.; Yao, L.; Windebank, A.; Pandit, A.; |
| P2-123 |
Systems biology reveals retinoid X receptor signaling as a possible therapeutic target for CNS remyelination |
|
Huang, J.; Jarjour, A.; Nait-Oumesmar, B.; Kerninon, C.; Williams, A.; Krezel, W.; Kagechika, H.; Bauer, J.; Zhao, C.; Baron-Van Evercooren, A.; Chambon, P.; ffrench-Constant, C.; Franklin, R.; |
| P2-124 |
Dopamine signaling in astrocytes – Relevance for levodopa induced recovery after stroke |
|
Ruscher, K.; Kuric, E.; Wieloch, T.; |
|
|
| Trophic factors |
|
|
| P2-104 |
Neurotrophic activity of human mesenchymal stem cells isolated from donors of different ages |
|
Brohlin, M.; Kingham, P.; Novikova, L.; Novikov, L.; Wiberg, M.; |
| P2-105 |
Whole body exposure of 914MHz RFID attenuate melatonin biosynthesis in rat pineal gland by reducing arylakylamine N-acetyltransferase activity |
|
Kim, H.; Paik, M.; Kim, E.; Lee, Y.; Kim, N.; Ahn, Y.; |
| P2-106 |
Health performance analysis |
|
Nica, E.; |
|
|
| Tumours |
|
|
| P2-107 |
Calcium-activated potassium channels: a possible target for the pharmacological treatment of glioblastoma |
|
D'Alessandro, G.; Catalano, M.; Cipriani, R.; Chece, G.; Cordoano, S.; Limatola, C.; |
| P2-108 |
CD38 deficiency in the tumor microenvironment attenuates glioma progression |
|
Levy, A.; Mayo, L.; Blacher, E.; Vaknine, H.; Lund, F.; Stein, R.; |
| P2-109 |
Glioblastoma cells: a heterogeneous and fatal tumor interacting with the parenchyma |
|
Moura-Neto, V.; Souza-Lima, F.; Kahn, S.; |
| P2-110 |
Expression and Localisation of Kir channels in human Glioblastoma Multiforme |
|
Papanikolaou, M.; Pilkington, G.; Butt, A.; |
| P2-111 |
Elimination of Cx43 channel activity attenuates glioma invasion |
|
Sin, W.; Aftab, Q.; Chen, H.; Bechberger, J.; Naus, C.; |
| P2-112 |
Snf5 inactivation in P0 permissive cells initiates formation of Peripheral Nerve Sheath Tumors (PNST) with rhabdoid features |
|
Vitte, J.; Chareyre, F.; Chareyre, B.; Bonne, N.; Stemmer-Rachamimov, A.; Giovannini, M.; |
| P2-113 |
NG2 expression in Glioblastoma identifies an actively proliferating population with an aggressive molecular signature |
|
Watts, C.; Fael al-Mayhani, T.; Fawcett, J.; Collins, P.; Ichimura, K.; |
|
|
|
|
| Poster session 3 |
|
|
| Glial-neuronal interactions |
|
|
| P3-001 |
The relationship between chemotactic cytokine ligand-1 and neuron/glia in the neuropathic pain model |
|
Akimoto, N.; Honda, K.; Takano, Y.; Noda, M.; |
| P3-002 |
The significance of carbonic anhydrase activity for pH regulation of cerebellar neurons and glial cells: a knockout study |
|
Alt, M.; Deitmer, J.; |
| P3-003 |
GFAP, vimentin and cyclin D1 expression in primary astroglial cell cultures treated with thioctic acid and alpha-glyceryl-phosphoryl-choline |
|
Avola, R.; Bramanti, V.; Bronzi, D.; Grasso, S.; Malfa, G.; Tomassoni, D.; Tomasello, B.; Renis, M.; Amenta, F.; |
| P3-004 |
Optimized protocol for isolation of spinal cord microglia |
|
Baskar Jesudasan, S.; Dhami, K.; Winship, I.; Todd, K.; |
| P3-005 |
A non-enzymatic transport metabolon enhances lactate flux in astrocytes |
|
Becker, H.; Stridh, M.; Alt, M.; Wittmann, S.; Aggarwal, M.; McKenna, R.; Wennemuth, G.; Deitmer, J.; |
| P3-006 |
Spermine effect on interneurons in CA1 hippocampus |
|
Benedikt, J.; Buldakova, S.; Inyushin, M.; Kucheryavykh, Y.; Veh, R.; Nichols, C.; Eaton, M.; Skatchkov, S.; |
| P3-007 |
Mapping hippocampal astrocyte calcium responses to single CA1 pyramidal neuron stimulation using light-activated channelrhodopsin-2 |
|
Bernardinelli, Y.; Salmon, C.; Jones, E.; Farmer, W.; Stellwagen, D.; Murai, K.; |
| P3-008 |
Split-Cre and split-CreERT2: versatile genetic coincidence detectors for precise analysis of cell populations in vivo |
|
Besser, S.; Wilhelm, F.; Winkler, U.; Requardt, R.; Schulze, C.; Hirrlinger, P.; Hirrlinger, J.; |
| P3-009 |
Neuronal CCL21 up-regulates microglia P2X4 expression and initiates neuropathic pain development |
|
Biber, K.; Tsuda, M.; Tozaki-Saitoh, H.; Tsukamoto, K.; Toyomitsu, E.; Masuda, T.; Boddeke, H.; Inoue, K.; |
| P3-010 |
Region-specific microglial hyperactivation in the methionine sulfoximine (MSO) – model of experimental epilepsy is associated with neuronal GABAA-receptor-subunit internalization. |
|
Bidmon, H.; Herold, C.; Görg, B.; Palomero-Gallagher, N.; Schleicher, A.; Speckmann, E.; Zilles, K.; |
| P3-011 |
Temporal and cellular expression pattern of Lc and N type of voltage-dependent calcium channels after cortical injury |
|
Bozic, I.; Gadjanski, I.; Lavrnja, I.; Parabucki, A.; Dacic, S.; Bjelobaba, I.; Savic, D.; Rakic, L.; Stojiljkovic, M.; Pekovic, S.; |
| P3-012 |
Microglia faces featuring a potential pathological neural/glial behavior highly common in neonatal life |
|
Brites, D.; Silva, S.; Oliveira, A.; Vaz, A.; Diógenes, M.; van Rooijen, N.; Sebastiao, A.; Fernandes, A.; Gomes, C.; Falcao, A.; Silva, R.; |
| P3-013 |
Functional morphology of reelin-mediated glia-synaptic interaction: Constitutive exocytosis from astrocytes at discrete release sites |
|
Brunkhorst, R.; Bock, H.; Haseleu, J.; Rizzoli, S.; May, P.; Zurhuve, K.; Elisabeth, B.; Derouiche, A.; |
| P3-014 |
Development of neurotransmitter-mediated calcium signalling in olfactory ensheathing cells |
|
Buddrus, K.; Thyssen, A.; Deitmer, J.; Lohr, C.; |
| P3-015 |
Phosphocreatine levels in the centrum semiovale correlate with disability in patients with multiple sclerosis |
|
Cambron, M.; D'haeseleer, M.; Heersema, D.; De Keyser, J.; |
| P3-016 |
Extracellular glutamate controls the recycling of extracellular tissue type plasminogen activator in astrocytes |
|
Casse, F.; Bardou, I.; Briens, A.; Danglot, L.; Alahari, A.; Galli, T.; Docagne, F.; Vivien, D.; |
| P3-017 |
o-ATP treatment reduces neuropathic behaviour interacting with reactive gliosis |
|
Cavaliere, C.; Petrosino, V.; Cirillo, G.; Marcello, L.; Bianco, M.; Papa, M.; |
| P3-018 |
A deficiency of alpha-syntrophin, the anchoring protein of aquaporin-4 channels, affects cell swelling in cortical tissue during hypoosmotic and hyperkalemic stress |
|
Cicanic, M.; Vargova, L.; Sykova, E.; |
| P3-019 |
Normal astrocytes in human brain contain endothelin-1 but do not appear to contribute to blood endothelin-1 levels. |
|
D'Haeseleer, M.; Cambron, M.; Wilczak, N.; De Keyser, J.; |
| P3-020 |
Neuron-glia interactions in peripheral vasopressin and oxytocin systems unveiled in transgenic rats |
|
Dayanithi, G.; Forostyak, O.; Forostyak, S.; Arboleda, D.; Viero, C.; Strunin, D.; Folkova, D.; Sykova, E.; Shibuya, I.; Ueta, Y.; Toescu, E.; Verkhratsaky, A.; |
| P3-021 |
Functional morphology of NG2 cell processes: Cytoskeleton and putative exocytosis vesicles |
|
Derouiche, A.; Haseleu, J.; Wyczynski, A.; Karram, K.; Trotter, J.; Steinhäuser, C.; |
| P3-022 |
The tripeptide N-acetylaspartylglutamylglutamate is synthesized by NAAG synthetase-II and is a new endogenous substrate of glutamate carboxypeptidase-II |
|
Eckhardt, M.; Lodder-Gadaczek, J.; Becker, I.; Gieselmann, V.; Wang-Eckhardt, L.; |
| P3-023 |
Role of periaqueductal gray glial cell activation in the development of morphine tolerance in the male rat |
|
Eidson, L.; Murphy, A.; |
| P3-024 |
Schwann cells interact with each other, neurons and fibroblasts via highly motile peripheral lamellipodial waves |
|
Ekberg, J.; Mackay-Sim, A.; St John, J.; |
| P3-025 |
Study of the neuronal and glial response to changes in magnetic field |
|
Etxebarria, E.; Rienda, B.; Orue, I.; Barandiaran, J.; |
| P3-026 |
Vasopressin-induced [Ca2+]i increase in non-neuronal cells from rat dorsal root ganglia |
|
Dayanithi, G.; Moriya, T.; Kayano, T.; Kitamura, N.; Hosaka, Y.; Viero, C.; Toescu, E.; Forostyak, O.; Shibuya, I.; |
| P3-027 |
Role of the a-secretase TACE in central nervous system myelination |
|
Fredrickx, E.; Brivio, V.; Taveggia, C.; |
| P3-028 |
Transient inflammation causes chronic tactile hypersensitivity: The new role of the P2X7R-pannexin1 complex in pain |
|
Hanstein, R.; Zhao, J.; Gulinello, M.; Hanani, M.; Spray, D.; |
| P3-029 |
Blocking CD47/OX101 makes the astrocytes permissive for nerve fiber growth |
|
Hashemian, S.; Marschinke, F.; Oldenborg, P.; Strömberg, I.; |
| P3-030 |
Reciprocal influence of stress and n-3 polyunsaturated fatty acids (PUFA) status on astrocyte function |
|
Hennebelle, M.; Champeil-Potokar, G.; Latour, A.; Denis, S.; Lavialle, M.; Vancassel, S.; Denis, I.; |
| P3-031 |
The extracellular matrix and altered diffusion in focal cortical dysplasia |
|
Homola, A.; Vargova, L.; Cicanic, M.; Zamecnik, J.; Marusic, P.; Krsek, P.; Sykova, E.; |
| P3-032 |
Functional oligodendrocyte precursor cells and oligodendrocytes from human pluripotent stem cells |
|
Hyysalo, A.; Mäkinen, M.; Joki, T.; Kaarela, T.; Skottman, H.; Narkilahti, S.; |
| P3-033 |
Astroglial connexin 43 sustains hippocampal synaptic transmission |
|
Chever, O.; Ezan, P.; Giaume, C.; Pannasch, U.; Rouach, N.; |
| P3-034 |
Hyperexcitable astrocytes increase the probability of glutamate release at CA3-CA1 synapses in slices from kindled epileptic rats |
|
Bonansco, C.; Alvarez-Ferrada, C.; Morales, J.; Fuenzalida, M.; Roncagliolo, M.; |
| P3-035 |
Time-lapse imaging of the dynamics of glial-axonal interactions in the CNS |
|
Ioannidou, K.; Anderson, K.; Strachan, D.; Edgar, J.; Barnett, S.; |
| P3-036 |
Impact of the NG2 proteoglycan on neuron-NG2 cell synaptic signaling |
|
Jabs, R.; Passlick, S.; Karram, K.; Trotter, J.; Steinhäuser, C.; |
| P3-037 |
Activity dependent glucose transport in acute cerebellar slices: a multiphoton study |
|
Jakoby, P.; Scheller, A.; Kirchhoff, F.; Barros, L.; Deimter, J.; |
| P3-038 |
Evidence that compromised K+ spatial buffering contributes to the epileptogenic effect of mutations in the human Kir4.1 gene (KCNJ10) |
|
Jensen, V.; Haj-Yasein, N.; Vindedal, G.; Gundersen, G.; Klungland, A.; Ottersen, O.; Hvalby, O.; Nagelhus, E.; |
| P3-040 |
The myelin protein Sirtuin 2 is necessary for the axonoprotective function of oligodendroglia |
|
Kasapoglu, B.; Tzvetanova, I.; Möbius, W.; Motta, M.; Guarente, L.; Werner, H.; Nave, K.; |
| P3-041 |
Damage of glial cells in crayfish ventral nerve cord under photodynamic treatment |
|
Kolosov, M.; Duz, E.; Uzdensky, A.; |
| P3-042 |
Astrocytic morphological and functional alterations during the progression of Alzheimer’s disease in the prefrontal cortex |
|
Kulijewicz-Nawrot, M.; Verkhratsky, A.; Chvatal, A.; Syková, E.; Rodríguez, J.; |
| P3-043 |
n-3 Polyunsaturated Fatty Acids (PUFA) deficiency aggravates the age-related alteration in glutamatergic synaptic transmission and astroglial function in rat hippocampus |
|
Latour, A.; Grintal, B.; Champeil-Potokar, G.; Hennebelle, M.; Lavialle, M.; Vancassel, S.; Billard, J.; Potier, B.; Denis, I.; |
| P3-044 |
CX3CL1 protects hippocampal neurons against excitotoxicity by enhancing glial glutamate uptake |
|
Lauro, C.; Catalano, M.; Chece, G.; Ponzetta, A.; Di Angelantonio, S.; Limatola, C.; |
| P3-045 |
Assessing the importance of an astrocyte specific anaplerotic enzyme in the central nervous system of rat |
|
Lengacher, S.; Cudalbu, C.; Aznavour, N.; Gruetter, R.; Magistretti, P.; |
| P3-046 |
Eph receptors are novel regulators of astrocytic gliotransmitter release |
|
Liebl, D.; Zhuang, Z.; |
| P3-047 |
Glial cell activation in the spinal-trigeminal system in vivo: implications for basic mechanisms of pain transmission |
|
Magni, G.; Villa, G.; Zanardelli, M.; Ohara, P.; Jasmin, L.; Abbracchio, M.; Ceruti, S.; |
| P3-048 |
Developmental regulation of potassium channels in NG2 cells of the somatosensory cortex |
|
Maldonado, P.; Vélez-Fort, M.; Angulo, M.; |
| P3-049 |
Spinal and supraspinal glial plasticity following neuropathic pain |
|
Marcello, L.; Cavaliere, C.; Cirillo, G.; Bianco, M.; Papa, M.; |
| P3-050 |
Regulation of glial calcium oscillations and seizure susceptibility by the NCKX zydeco |
|
Melom, J.; Littleton, J.; |
| P3-051 |
Gliotransmission and brain glucose sensing: critical role of endozepines |
|
Morin, F.; Lanfray, D.; Arthaud, S.; Ouellet, J.; Compere, V.; Do Rego, J.; Leprince, J.; Lefranc, B.; Castel, H.; Pelletier, G.; Vaudry, H.; Tonon, M.; |
| P3-052 |
Endocannabinoids potentiate synaptic transmission through stimulation of astrocytes |
|
Navarrete, M.; Araque, A.; |
| P3-053 |
Astrocytes and neurons together process sensory information via P2X receptors in the dorsal horn of the spinal cord: voltage imaging and immunohistological analyses |
|
Okada, Y.; Aoyama, R.; Yokota, S.; Yasui, Y.; Fukuda, K.; Shinozaki, Y.; Yoshida, H.; Nakamura, M.; Chiba, K.; Yasui, Y.; Kato, F.; Toyama, Y.; |
| P3-054 |
Establishing a functional model of the brain in vitro |
|
Olson, S.; MacDonald, J.; Thomson, C.; |
| P3-055 |
Cellular mechanisms for presynaptic inhibition of sensory afferents |
|
Christensen, R.; Delgado-Lezama, R.; Russo, R.; Lind, B.; Schmitt, N.; Loeza-Alcocer, M.; Victor Petersen, A.; Lauritzen, M.; Perrier, J.; |
| P3-056 |
Withdrawn |
|
|
| P3-057 |
Extracellular glutamate homeostasis in the aged rat hippocampus |
|
Potier, B.; Basileu, T.; Pigeat, R.; Billard, J.; Dutar, P.; |
| P3-058 |
Kappa B-motif binding phosphoprotein (KBBP), astroglial glutamate transporter GLT1 and behavioral hyperalgesia |
|
Ren, K.; Guo, W.; Gu, M.; Zou, S.; Wei, F.; Dubner, R.; |
| P3-059 |
Functional properties of microglia in the embryonic spinal cord |
|
Rigato, C.; Swinnen, N.; Buckinx, R.; Rigo, J.; Le-Corronc, H.; Legendre, P.; |
| P3-060 |
Withdrawn |
|
|
| P3-061 |
Morphofunctional specialization of astrocytes in the optic nerve and tract of the lizard Gallotia galloti |
|
Romero-Alemán, M.; Santos, E.; Monzón-Mayor, M.; Yanes, C.; |
| P3-062 |
Glial cell activation in post-surgical latent pain sensitization in mice |
|
Romero, M.; Vasconcelos, N.; Romero-Alejo, E.; Fernández, B.; Puig, M.; |
| P3-063 |
Peeking into the early neurometabolic response |
|
Ruminot, I.; Bittner, C.; Gutierrez, R.; Valdebenito, R.; Anazco, C.; Pena-Munzenmayer, G.; Sotelo-Hitschfeld, T.; Lerchundi, R.; San Martín, A.; Niemeyer, M.; Shull, G.; Barros, L.; |
| P3-064 |
Inducible ablation of AMPA receptors in Bergmann glia |
|
Saab, A.; Jahn, H.; Neumeyer, A.; Cupido, A.; Möbius, W.; Scheller, A.; Le Meur, K.; Götz, M.; Monyer, H.; Sprengel, R.; de Zeeuw, C.; Rubio, M.; Deitmer, J.; Kirchhoff, F.; |
| P3-065 |
Modulation of astroglial networks in the cerebral cortex of the rat |
|
Santacroce, I.; Lanosa, X.; Kafitz, K.; Rose, C.; Colombo, J.; |
| P3-066 |
Retrograde synaptic signaling mediated by K+ efflux through NMDA receptors |
|
Shih, P.; McHugh, T.; Semyanov, A.; |
| P3-067 |
Plastic and synaptically-evoked astroglial currents regulate hippocampal neurotransmission |
|
Sibille, J.; Dao Duc, K.; Holcman, D.; Rouach, N.; |
| P3-068 |
The block of vesicular release from astrocytes does not influence basic nociception and inflammatory pain in mice |
|
Slezak, M.; Makuch, W.; Rojewska, E.; Przewlocka, B.; Przewlocki, R.; |
| P3-069 |
Sodium channel clustering in developing nodes of Ranvier of cultured hippocampal neurons |
|
Sol-Foulon, N.; Gatta, M.; Pfeiffer, F.; Barbin, G.; Lubetzki, C.; |
| P3-070 |
Environmental effects on oligodendrocyte precursor cell membrane properties |
|
Spitzer, S.; Stockley, J.; Stacpoole, S.; Luzhynskaya, A.; Káradóttir, R.; |
| P3-071 |
Ubiquitous knockout of IP3R2 in is detrimental in a murine model of Amyotrophic Lateral Sclerosis |
|
Staats, K.; Bogaert, E.; Hersmus, N.; Hisatsune, C.; Mikoshiba, K.; Robberecht, W.; Van Den Bosch, L.; |
| P3-072 |
Bilateral activation of glial cells in the trigeminal nucleus caudalis after unilateral infraorbital nerve injury |
|
Strejckova, L.; Klusakova, I.; Dubovy, P.; |
| P3-073 |
Mechanisms of Ca2+ activity in perisynaptic astrocytic processes |
|
Tang, X.; Wu, Y.; Patrushev, I.; Asatryan, S.; Arizono, M.; Bannai, H.; Mikoshiba, K.; Kazantsev, V.; Semyanov, A.; |
| P3-074 |
Characterization of a novel zebrafish mutant with peripheral glial defects: failure to launch (ftl vu268) |
|
Eckardt, J.; Kucenas, S.; |
| P3-075 |
Overexpression of CPEB3 in astrocytes represses the basal translation of the major gap junction proteins Connexin43 and Connexin30 |
|
Vangoor, V.; Turimella, S.; Zhang, J.; Kaczmarczyk, L.; Bedner, P.; von Staden, E.; Derouiche, A.; Jabs, R.; Seifert, G.; Steinhäuser, C.; Theis, M.; |
| P3-076 |
Microvesicles shed from microglia represent a new pathway of glia-to neuron communication |
|
Verderio, C.; Antonucci, F.; Turola, E.; Riganti, L.; Caleo, M.; Perrotta, C.; Clementi, E.; Giussani, P.; Viani, P.; Matteoli, M.; |
| P3-077 |
Astrocyte chemoreceptors sense CO2/H+ by inhibition of Kir4.1-Kir5.1 channels and the sodium bicarbonate cotransporter to provide a purinergic drive to breathe. |
|
Wenker, I.; Mulkey, D.; |
| P3-078 |
Astrocyte-specific deletion of the cell adhesion protein vinculin in mice |
|
Winkler, U.; Zemljic-Harpf, A.; Ross, R.; Ziegler, W.; Hirrlinger, J.; |
| P3-079 |
Withdrawn |
|
|
| P3-080 |
Spatial relationship of astrocytic and NG2 glial domains in rat hippocampal CA1 region |
|
Xu, G.; Wang, W.; Zhou, M.; |
| P3-081 |
Cx43-polyamine dependent activation and permeability tested by a spermine bio-sensor |
|
Kucheryavykh, Y.; Kurata, H.; Inyushin, M.; Kucheryavykh, L.; Veh, R.; Antonov, S.; Shuba, Y.; Boldyryev, O.; Eaton, M.; Nichols, C.; Skatchkov, S.; |
| P3-111 |
c-Jun is expressed during formation of the Bergmann glial monolayer and is essential for the induction of Il-1beta gene expression in in vitro LPS-activated Bergmann glial cells |
|
Edamakanti, C.; Albanito, L.; Musti, A.; |
| P3-112 |
Valproic acid induces astrocyte-dependent neurite outgrowth from cultured rat primary cortical neuron via modulation of tPA/PAI-1 activity |
|
Cho, K.; Ko, H.; Kwon, K.; Lee, S.; Han, S.; Cheong, J.; Ryu, J.; Shin, C.; |
| P3-113 |
Soluble neuronal factors influence astrocyte cell surface protein expression |
|
Morisse, G.; Awasthi, A.; Rajashekaran, S.; Colman, D.; Dhaunchak, A.; Bar-Or, A.; |
| P3-114 |
Reactive gliosis and calcium dynamics in spinal cord |
|
Petrosino, V.; Cirillo, G.; De Luca, D.; Marcello, L.; Cavaliere, C.; Bianco, M.; Papa, M.; |
| P3-115 |
A new transgenic mouse model to test the relevance of glial exocytosis |
|
Pfrieger, F.; Niemiec, A.; Wurm, A.; Tanimoto, N.; Münch, T.; Crocker, B.; Isope, P.; Pannicke, T.; Beck, S.; Huber, G.; Ferracci, G.; Perraut, M.; Reber, M.; Miehe, M.; Leveque, C.; Metzger, D.; Szklarczyk, K.; Przewlocki, R.; Seeliger, M.; Sage-Ciocca, D.; Reichenbach, A.; Reibel, S.; Slezak, M. |
| P3-116 |
How astrocytes influence myelin: A new model for leukodystrophy? |
|
Schreiner, B.; Sobottka, B.; Ingold-Heppner, B.; Buch, T.; Waisman, A.; Heppner, F.; Becher, B.; |
|
|
| Neural stem/progenitor cells |
|
|
|
|
|
|
| P3-082 |
Transcriptome analysis of microdissected walls of the lateral ventricle as a method to study the spatio-temporal coding of cellular specification in the postnatal forebrain. |
|
Azim, K.; Joly, S.; Fernandez, M.; Raineteau, O.; |
| P3-083 |
Histamine, a proneurogenic factor on the subventricular zone: a new approach for brain repair |
|
Bernardino, L.; Eiriz, M.; Santos, T.; Xapelli, S.; Grade, S.; Rosa, A.; Cortes, L.; Braganca, J.; Agasse, F.; Ferreira, L.; Malva, J.; |
| P3-084 |
Expression of the new P2Y-like receptor GPR17 during oligodendrocyte precursor cell maturation regulates sensitivity to ATP-induced death |
|
Boccazzi, M.; Vigano, F.; Boda, E.; Magni, G.; Rosa, P.; Buffo, A.; Abbracchio, M.; Ceruti, S.; |
| P3-085 |
Physiology of Ca2+ signalling in human embryonic stem cell-derived neural precursors |
|
Forostyak, O.; Romanyuk, N.; Sykova, E.; Dayanithi, G.; |
| P3-086 |
Human neural stem cells engraftment in amyotrophic lateral sclerosis model |
|
Gelati, M.; Zalfa, C.; Rota Nodari, L.; Muzi, G.; Profico, D.; Projetti-Pensi, M.; Sgaravizzi, G.; De Filippis, L.; Vescovi, A.; |
| P3-087 |
Oligodendrocyte lineage response to cerebrocortical and periventricular demyelination in a mouse model of progressive Multiple Sclerosis |
|
Girolamo, F.; Strippoli, M.; Ferrara, G.; Errede, M.; Rizzi, M.; Coppola, C.; Roncali, L.; Perris, R.; Virgintino, D.; |
| P3-088 |
Does cellular niche play an important role in mesenchymal stem cell fate? |
|
Johnstone, S.; Lindsay, S.; Barnett, S.; Dalby, M.; |
| P3-089 |
Functional analysis of O4(+) oligodendroglia from adult human brains |
|
Leong, S.; Bin, J.; Kennedy, T.; Antel, J.; |
| P3-090 |
Adult adherent neural progenitor cells express functional P2X7 receptors |
|
Messemer, N.; Kunert, C.; Franke, H.; Grohmann, M.; Rubini, P.; Illes, P.; |
| P3-091 |
Transcriptomic profile of adult CNS oligodendroglial cells, in control conditions and after demyelination |
|
Moyon, S.; Aigrot, M.; Dauphinot, L.; Ros, C.; Potier, M.; Franklin, R.; Lubetzki, C.; |
| P3-092 |
Pharmacological and genetic influences of hippocampal radial glia-like neural stem cells and their progeny in vivo |
|
Petrik, D.; Yun, S.; Jiang, Y.; LeBlanc, J.; Birnbaum, S.; Powell, C.; Hsieh, J.; Eisch, A.; |
| P3-093 |
Role of Sirt1 in oligodendrocyte progenitors in autoimmune neuroinflammation |
|
Prozorovski, T.; Eckstein, D.; Ingwersen, J.; Göttle, P.; Koop, B.; Klose, J.; Schröter, F.; Hartung, H.; Küry, P.; Aktas, O.; |
| P3-094 |
NOGO-A/NgR signalling regulates neuroblast migration and cellular interactions in the SVZ-RMS system |
|
Rolando, C.; Boda, E.; Plicato, O.; Schwab, M.; Rossi, F.; Buffo, A.; |
| P3-095 |
Treating experimental spinal cord injury with human induced pluripotent stem cell-derived neural precursors |
|
Romanyuk, N.; Amemori, T.; Turnovcová, K.; Jendelová, P.; Onteniente, B.; Syková, E.; |
| P3-096 |
Combined action of the neurogenic molecules Cend1 and Neurogenin-2 in directing cultured astrocytes towards a radial glia and neural stem cell phenotype |
|
Thomaidou, D.; Matsas, R.; Berninger, B.; Aravantinou-Fatorou, K.; |
| P3-097 |
A comparative study of adult CNS and PNS stem/progenitor cells |
|
Vidal, M.; Zujovic, V.; Prudhomme, T.; Deboux, C.; Baron-Van Evercooren, A.; |
| P3-098 |
Voluntary wheel running rescues cellular and behavioural schizophrenic-like phenotype in mice |
|
Wolf, S.; Melnik, A.; Kempermann, G.; |
| P3-099 |
Activation of the cannabinoid CB1 receptor promotes proliferation and neuronal differentiation in murine subventricular zone cell cultures |
|
Xapelli, S.; Sarda, L.; Bernardino, L.; Santos, T.; Agasse, F.; Malva, J.; |
| P3-100 |
Boundary cap cells are PNS stem cells that can be redirected into CNS lineages. |
|
Zujovic, V.; Thibaud, J.; Bachelin, C.; Vidal, M.; Deboux, C.; Coulpier, F.; Stadler, N.; Charnay, P.; Topilko, P.; Baron-Van Evercooren, A.; |
| P3-117 |
In vitro differentiation of bone marrow stem cellderived neural stem cells into oligodendrocyte-like cells |
|
Abbaszadeh, H.; Tirahi, T.; Kazemi, H.; Delshad, A.; |
| P3-120 |
p57kip2 is an intrinsic regulator of adult neural stem cell glial fate decision |
|
Jadasz J. J.; Rivera F. J.; Taubert A.; Kandasamy M.; Sandner B.; Weidner N.; Aktas O.; Hartung H.; Aigner L.; Küry P.; |
| P3-121 |
Cell specific labelling and time lapse imaging of neuroepithelial progenitor cells in the developing spinal cord. |
|
McDermott, K.; Pakan, J.; |
|
|
| Retina |
|
|
| P3-039 |
Exocytotic glutamate release from retinal (Müller) glia cells |
|
Wurm, A.; Pannicke, T.; Brückner, E.; Hirrlinger, J.; Bringmann, A.; Münch, T.; Haydon, P.; Pfrieger, F.; Reichenbach, A.; |
| P3-101 |
Dynamics of glial cell numbers and position in the mouse model of oxygen-induced retinopathy |
|
Martin, G.; Fischer, F.; Bucher, F.; Agostini, H.; |
| P3-102 |
The novel Activated Microglia/Macrophage WAP Domain Protein, AMWAP, is induced during microglial activation and acts as a negative regulator of the pro-inflammatory response |
|
Karlstetter, M.; Walczak, Y.; Ebert, S.; Weigelt, K.; Van den Brulle, J.; Schwer, H.; |
| P3-103 |
Are peripapillary glial cells responsible for absence of astrocytes in the avian retina? |
|
Kim, J.; Sohn, H.; Lee, E.; Goo, Y.; Kim, D.; Seo, J.; |
| P3-104 |
Involvement of oxidative stress and mitochondrial dysfunction in the osmotic swelling of retinal glial cells from diabetic rats |
|
Krügel, K.; Wurm, A.; Pannicke, T.; Hollborn, M.; Karl, A.; Wiedemann, P.; Reichenbach, A.; Bringmann, A.; |
| P3-105 |
Lama1 mutations lead to astrocyte exodus from retina, vitreoretinal blood vessel formation, persistence of the fetal vasculature, and epiretinal membrane formation in mice. |
|
Lutty, G.; Edwards, M.; Grebe, R.; Heng, C.; Lefebvre, O.; McLeod, D.; |
| P3-106 |
D-Serine levels determine the AMPA/NMDA Receptor Ratio in retinal ganglion cells |
|
Miller, R.; Sullivan, S.; Gustafson, E.; Esguerra, M.; Coyle, J.; |
| P3-107 |
Retinal degeneration and microglial activation in mouse models of neuronal ceroid lipofuscinoses |
|
Mirza, M.; Jägle, H.; Langmann, T.; |
| P3-108 |
Activation of immature microglia in organotypic cultures of embryonic quail retina |
|
Sierra Martín, A.; Navascués, J.; Carrasco, M.; Martín-Oliva, D.; Ferrer-Martín, R.; Santos, A.; Calvente, R.; Cuadros, M.; Marín-Teva, J.; |
| P3-109 |
Characteristics of retinal microglia reaction evoked by different intravitreally applied stimuli |
|
Ulbricht, E.; Zeitschel, U.; Francke, M.; Reichenbach, A.; |
| P3-110 |
Adult retinal microglia express neural markers nestin and NG2 which are involved in cell proliferation and phagocytosis |
|
Wohl, S.; Schmeer, C.; Witte, O.; Isenmann, S.; |
| P3-118 |
Immunocharacterization of Müller glia during the ontogeny of the lizard Gallotia galloti |
|
Monzón-Mayor, M.; Romero-Alemán, M.; Santos, E.; Yanes, C.; |
|
|
| Second messenger pathways |
|
|
| P3-119 |
Phosphoinositide 3-kinase y (PI3Ky) mediates inflammatory functions of microglia |
|
Schmidt, C.; Schneble, N.; Rubio, I.; Mueller, J.; Bauer, R.; Wetzker, R.; |
|
|
| Poster session 4 |
|
|
| Ischemia and hypoxia |
|
|
| P4-001 |
Effect of inhibition of the NMDA receptor on a prenatal hypoxic-ischemic insult in the cerebellum during development |
|
Barradas, P.; Savignon, T.; Costa, A.; Tenorio, F.; Manhaes, A.; |
| P4-002 |
Characterization of distinct astrocytic populations responding with different volume changes to oxygen-glucose deprivation: 3D confocal morphometry and single-cell gene expression profiling |
|
Benesova, J.; Rusnakova, V.; Honsa, P.; Pivonkova, H.; Kubista, M.; Anderova, M.; |
| P4-003 |
Reactive hippocampal astrocytes display an increased expression of trpv4 channels after cerebral hypoxia/ischemia |
|
Butenko, O.; Dzamba, D.; Prajerova, I.; Benesova, J.; Honsa, P.; Benfenati, V.; Ferroni, S.; Anderova, M.; |
| P4-004 |
Role of Homer 1 proteins in the calcium signalling pathway(s) underlying exo-endocytosis processes of glutamatergic SLMVs in astrocytes |
|
Cali', C.; Marchaland, J.; Ginet, V.; Hirt, L.; Truttmann, A.; Puyal, J.; Bezzi, P.; |
| P4-005 |
Extracellular diffusion parameters and potassium concentration in alpha-syntrophin knock-out mice before and during terminal anoxia/ischemia |
|
Dmytrenko, L.; Vargová, L.; Syková, E.; |
| P4-006 |
Persistent astroglial swelling accompanies acute neuronal injury and recovery during stroke-induced spreading depolarizations |
|
Kirov, S.; Risher, W.; |
| P4-007 |
Differences in origin of reactive microglia in bone marrow chimeric mouse and rat after transient global ischemia |
|
Lambertsen, K.; Deierborg, T.; Gregersen, R.; Clausen, B.; Wirenfeldt, M.; Nielsen, H.; Dalmau, I.; Diemer, N.; Dagnaes-Hansen, F.; Johansen, F.; Keating, A.; Finsen, B.; |
| P4-008 |
The inhibitor of volume-regulated anion channels DCPIB activates TREK potassium channels in cultured astrocytes |
|
Minieri, L.; Pivonkova, H.; Caprini, M.; Anderova, M.; Ferroni, S.; |
| P4-009 |
Galectin-3 contributes to delayed neuronal death of hippocampal CA1 following transient forebrain ischemia. |
|
Niwa, M.; Satoh, K.; Hara, A.; |
| P4-010 |
Astrocytes contribute to dopamine release regulation during ischemia |
|
Oliva, I.; Martín, E.; Fernández, M.; |
| P4-011 |
Swelling of astrocytes by gliotoxin impedes extracellular diffusion in rat neocortex |
|
Sherpa, A.; Van De Nes, P.; Xiao, F.; Hrabetova, S.; |
| P4-012 |
Distribution of immune inhibitory molecule CD200 and its receptor in the developing C57BL/6 mice brain following hypoxia/ischemia |
|
Shrivastava, K.; Llovera, G.; Acarin, L.; |
| P4-013 |
Erythropoietin effects on astrocytes during oxygen-glucose deprivation |
|
Song, Y.; Gunnarson, E.; |
| P4-014 |
Neuronal and glial cerebellar abnormalities following hypoxia alone compared to ischemic-hypoxic forebrain injury in the developing rat brain |
|
Verney, C.; Biran, V.; Sheldon, R.; Vexler, Z.; Gressens, P.; Ferriero, D.; |
| P4-015 |
Glial Gap junctional communication involvement in hippocampal damage after MCAO |
|
Wang, W.; Xie, M.; Yi, C.; Luo, X.; Xu, S.; Yu, Z.; Bu Bitao, B.; |
| P4-016 |
Galectin-1 attenuates astrogliosis-associated injuries and improves recovery of rats following focal cerebral ischemia |
|
Yu, Z.; Qu, W.; Wang, Y.; Ma, J.; Xie, M.; Wang, W.; |
| P4-114 |
Withdrawn |
|
|
| P4-115 |
GFAP and vimentin are required to detoxify reactive oxygen species generated after oxygen and glucose deprivation |
|
de Pablo, Y.; Pekny, M.; |
|
|
| Neuroimmunology and neuroinflammation |
|
|
| P4-017 |
Effects of astrocyte-targeted IL-6 production in the paradigm of facial nerve axotomy |
|
Almolda, B.; Villacampa, N.; Manders, P.; Hidalgo, J.; Campbell, I.; Gonzalez, B.; Castellano, B.; |
| P4-018 |
Microglia infection of Listeria monocytogenes is regulated by ActA virulence factor and TNF-alpha |
|
Alvarez-Dominguez, C.; Lopez-Fanarraga, M.; Fernandez-Prieto, L.; Rodriguez-Del Rio, E.; Frande-Cabanes, E.; |
| P4-019 |
In vivo uptake of beta-amyloid stimulates apoptosis but not proliferation of microglia and macrophages |
|
Babcock, A.; Ilkjaer, L.; Wirenfeldt, M.; Kroigard, T.; Myhre, C.; Dissing-Olesen, L.; Darvesh, S.; Jensen, M.; West, M.; Finsen, B.; |
| P4-020 |
Axonal loss and CD8+ T cell-mediated neuroinflammation caused by peroxisome-deficient oligodendrocytes |
|
Barrette, B.; Nessler, S.; Kassmann, C.; Nave, K.; |
| P4-021 |
Classical microglial activation in a DNA repair defective accelerated model of aging |
|
Boddeke, E.; Raj, D.; de Waard, M.; Van der Pluijm, I.; Biber, K.; |
| P4-022 |
Differential changes in glial and microglial markers associated with neuropathic pain caused by peripheral nerve ligation, spinal cord transection or anti-cancer therapy in rats |
|
Bourgoin, S.; Hamon, M.; Kayser, V.; Latrémoliere, A.; M'Dahoma, S.; Michot, B.; Viguier, F.; |
| P4-023 |
Astroglial NFkappaB regulates oligodendrogenesis following spinal cord injury |
|
Bracchi-Ricard, V.; Lambertsen, K.; Johnstone, J.; Nathanson, L.; Ellman, D.; Frydel, B.; Bethea, J.; |
| P4-024 |
Inhibition of soluble TNF is therapeutic in experimental autoimmune encephalomyelitis and promotes axon preservation and remyelination |
|
Brambilla, R.; Jopek-Ashbaugh, J.; Magliozzi, R.; Dellarole, A.; Karmally, S.; Szymkowski, D.; Bethea, J.; |
| P4-025 |
Bilateral elevation of TNFa and IL-6 mRNAs in dorsal root ganglia alongside neuroaxis following unilateral nerve injury |
|
Brazda, V.; Klusakova, I.; Svizenska, I.; Dubovy, P.; |
| P4-026 |
Mechanisms of interleukin-1 neurotoxicity are mediated by matrix metalloproteinase-9 in primary cultures |
|
Britton, F.; Pinteaux, E.; Rothwell, N.; Boutin, H.; |
| P4-027 |
Electrophysiological properties as phenotypic activation markers of microglia during autoimmune encephalomyelitis |
|
Brône, B.; Rigo, J.; |
| P4-028 |
Neuroglial interactions in the enteric nervous system: role in the response to bacterial-associated molecular patterns |
|
Burgueno, J.; Eyre, E.; Romero, C.; Neunlist, M.; Fernández, E.; |
| P4-029 |
The role of the inflammasome in microglial activation in multiple sclerosis |
|
Burm, S.; van der Putten, C.; Zuiderwijk-Sick, E.; van Straalen, L.; Bajramovic, J.; |
| P4-031 |
Absence of SIGIRR increases responsiveness of glial cells to Pam3CSK4, LPS and IL-1ß |
|
Carney, D.; Lynch, M.; |
| P4-032 |
Modulation of IL-10 release and PPAR-gamma expression by an alpha-MSH analogue in glial cells |
|
Carniglia, L.; Caruso, C.; Durand, D.; Lasaga, M.; |
| P4-033 |
Glia activation: an in vitro cellular model to investigate the roles of astrocytes and microglia in neurodegenerative diseases |
|
Consonni, A.; Macco, R.; Codazzi, F.; Grohovaz, F.; Zacchetti, D.; |
| P4-034 |
Anti-inflammatory response in primary cultures of rat brain cells infected by Neospora caninum : comparative patterns on glial and glial-neuron models |
|
Costa, M.; Jesus, E.; Santos, A.; Ribeiro, C.; El-Bachá, R.; Costa, S.; Pinheiro, A.; Tardy, M.; Moura-Neto, V.; |
| P4-036 |
The role of microglial complement receptor 1 (CR1) in Alzheimer’s disease |
|
Crehan, H.; Pocock, J.; Hardy, J.; |
| P4-037 |
Microglia activation: studies on leeches to dissect out the basic mechanisms of neuroinflammation |
|
Croq, F.; Garcon-Bocquet, A.; Vizioli, J.; VanCamp, C.; Sautiere, P.; Salzet, M.; Lefebvre, C.; |
| P4-038 |
Endogenous micro particles initiate the acute phase response to brain injury |
|
Anthony, D.; Evans, M.; Losey, P.; Couch, Y.; Grau, G.; |
| P4-039 |
C/EBPbeta inhibits the expression of the inhibitory immune receptor CD200R1 in microglial cells in response to pro-inflammatory stimulus |
|
Dentesano, G.; Straccia, M.; Tusell, J.; Serratosa, J.; Saura, J.; Sola, C.; |
| P4-040 |
The role of S1P receptors in myelination state |
|
Dev, K.; Sheridan, G.; |
| P4-041 |
Axonal mitochondrial dysfunction in an in vitro model of neuroinflammation |
|
Errea, O.; Villoslada, P.; |
| P4-042 |
Sirtuins: a novel link between neuroiflammation and neurodegeneration |
|
F. Pais, T.; Miller Fleming, L.; Marques, O.; Guerreiro, P.; Oliveira, R.; Fleming Outeiro, T.; |
| P4-043 |
Microglia cell activity is mediated through gamma secretase pathways |
|
Farfara, D.; Trudler, D.; Amzaleg-Segev, N.; Galron, R.; Stein, R.; Frenkel, D.; |
| P4-044 |
Increased expression of microglial activation markers, MHC-II and CD68, occurs in a sub-population of aged memory-impaired rats |
|
Farso, M.; Ménard, C.; Quirion, R.; |
| P4-045 |
Acute-phase cytokines IL-1ß and TNF-a alter neuronal neuritic outgrowth and synaptogenesis |
|
Fernandes, A.; Frias, C.; Lanier, L.; Brites, D.; |
| P4-046 |
Peripheral inflammatory stimulus exacerbate the ongoing central damage in an inflammatory model of demyelination |
|
Ferrari, C.; Murta, V.; Pitossi, F.; |
| P4-047 |
Divergent actions of the IL-1 system in spinal cord injury |
|
Fortin, N.; Bastien, D.; Pineau, I.; Paré, A.; Lacroix, S.; |
| P4-048 |
Increased expression of metallothionein in glial cells is involved in the neuroprotective effect of the cyclic GMP phosphodiesterase inhibitor sildenafil (Viagra) in focal brain injury |
|
Garcia, A.; Prado, J.; Pifarre, P.; Giralt, M.; Hidalgo, J.; |
| P4-049 |
Minocycline treatment improves neuroprotection and functional recovery following bone marrow mononuclear cell transplantation after striatal ischemia |
|
Gomes-Leal, W.; Marques Cardoso, M.; Santos Franco, E.; |
| P4-050 |
The role of S1P receptors in astrocytes |
|
Sheridan, G.; Healy, L.; Dev, K.; |
| P4-051 |
Analyzing phagocytosis in microglia and macrophages by flow cytometry |
|
Grant, N.; Ulrich, G.; Bader, M.; |
| P4-052 |
CX3CR1 drives CD4+CD28null cytotoxic T cells into the central nervous system of MS patients |
|
Hellings, N.; Broux, B.; Pannemans, K.; Zhang, X.; Markovic-Plese, S.; Broekmans, T.; Op 't Eijnde, B.; Somers, V.; Geusens, P.; Stinissen, P.; |
| P4-053 |
Jagged1 silencing in reactive astrocytes: a whole transcriptome analysis |
|
Hoenen, C.; Heurtaux, T.; Felten, P.; Bernardin, F.; Muller, A.; Nazarov, P.; Vallar, L.; Heuschling, P.; Morga, E.; |
| P4-054 |
Labdane diterpenoids suppress Janus kinase-STAT inflammatory signaling in IFN-gamma-stimulated brain microglia |
|
Hortelano, S.; Cidre, F.; Herranz, S.; Cortes, L.; de las Heras, B.; Cano, E.; |
| P4-055 |
Microglia-derived IL-1beta is involved in central mechanisms of fatigue |
|
Ifuku, M.; Izumi, K.; Otubo, S.; Noda, M.; Katafuchi, T.; |
| P4-056 |
Immunomodulatory and therapeutic properties of LIF in multiple sclerosis |
|
Janssens, K.; Slaets, H.; Baekelandt, V.; Van den Haute, C.; Vanwijmeersch, B.; Op ’t Eijnde, B.; Stinissen, P.; Hendriks, J.; Hellings, N.; |
| P4-057 |
The role of p53 family proteins in sculpting microglial behaviour in neurodegeneration |
|
Jebelli, J.; Hooper, C.; Pocock, J.; |
| P4-058 |
Blood monocytes infiltrate into the injured brain, are alternatively activated, and contribute to repairs |
|
Jeong, H.; Joe, E.; |
| P4-059 |
Microglia and monocytes do not promote delayed neuronal death in contusion-induced spinal cord injury |
|
Eun-Hye, J.; Kyoung-Jin, M.; |
| P4-060 |
Phagocytosis by astrocytes is enhanced by amyloid-beta |
|
Jones, R.; Connor, T.; Lynch, M.; |
| P4-061 |
HSP70 overexpression in oligodendrocytes affects autoimmune and toxic demyelination |
|
Jurewicz, A.; Galazka, G.; Zawadzka, M.; Wodz, K.; Domowicz, M.; Kollias, G.; Selmaj, K.; |
| P4-062 |
Microglial uptake of misfolded truncated tau |
|
Kazmerova, Z.; Zilka, N.; Kovac, A.; Novak, M.; |
| P4-063 |
Toll like receptor signals and type one interferon in glial response in the central nervous system. |
|
Tue Berg, C.; Truong Dieu, R.; Holm, T.; Khorooshi, R.; Owens, T.; |
| P4-064 |
Impaired inflammatory responses in murine Lrrk2-knockdown brain microglia |
|
Kim, B.; Yang, M.; Choi, D.; Kim, J.; Kim, H.; Seol, W.; Jou, I.; Kim, E.; Joe, E.; |
| P4-066 |
Alpha B-Crystallin plays differential roles in cuprizone-induced de- & remyelination |
|
Kuipers, H.; Brownell, S.; Kurnellas, M.; Palmer, T.; Steinman, L.; |
| P4-067 |
Dual effects of ß2-adrenergic receptor on NF-KappaB-dependent genes: synergy versus inhibition. |
|
Laureys, G.; Spooren, A.; Clinckers, R.; De Keyser, J.; Haegeman, G.; Gerlo, S.; |
| P4-069 |
TNFalfa can both up- and down-regulate the inducible antioxidant system (Nrf2) in astrocytes: involvement of MAP kinases |
|
Ljunggren, E.; Correa, F.; Sandberg, M.; |
| P4-070 |
Neurohistopathological characterization of adoptive transfer EAE in C57BL6/J mice |
|
Mannara, F.; Valente, T.; Moreno, B.; Villoslada, P.; Saiz, A.; Graus, F.; |
| P4-071 |
IRF8 transcription factor directs microglia to be a hyperactive phenotype driving neuropathic pain |
|
Masuda, T.; Tsuda, M.; Yoshinaga, R.; Tozaki-Saitoh, H.; Tamura, T.; Inoue, K.; |
| P4-072 |
Therapeutic potential of inhibitors of phosphodiesterase-7 (PDE7) in a murine model of multiple sclerosis |
|
Mestre, L.; Gil, C.; Morales, J.; Perez-Castillo, A.; Guaza, C.; Martínez, A.; |
| P4-073 |
Detrimental role of toll-like receptor 2 in collagenase-induced experimental intracerebral hemorrhage |
|
Min, H.; Hong, J.; Kwak, K.; Lee, S.; Lee, S.; |
| P4-074 |
LPS-induced release of IL-6 modulates production of TNFa and IL-1ß in a JAK2-dependent manner |
|
Minogue, A.; Barrett, J.; Lynch, M.; |
| P4-075 |
Differential effects of M1 and M2 microglia on oligodendroglial functions |
|
Miron, V.; Yuen, T.; Boyd, A.; Williams, A.; Franklin, R.; ffrench-Constant, C.; |
| P4-076 |
Myeloid-derived suppressor cells limit the inflammation by promoting T lymphocyte apoptosis in the spinal cord of a murine model of multiple sclerosis |
|
Moliné-Velázquez, V.; Cuervo, H.; Vila del Sol, V.; Ortega, M.; Clemente, D.; de Castro, F.; |
| P4-077 |
Beneficial effect of cortistatin and adrenomedullin on experimental autoimmune encephalomyelitis |
|
Morell Hita, M.; de Souza Moreira, L.; Gonzalez-Rey, E.; |
| P4-078 |
The role of amyloid associated proteins in amyloid-beta clearance by primary adult human microglia and astrocytes |
|
Mulder, S.; Nielsen, H.; Eikelenboom, P.; Veerhuis, R.; |
| P4-080 |
Nuclear estrogen receptor alpha expressing reactive astrocytes in the white matter: targets for alleviating neuroinflammation? |
|
Nicot, A.; Giraud, S.; Laplaud, D.; |
| P4-081 |
Subcutaneous injection containing IL-3 and GM-CSF ameliorates stab wound-induced brain injury in rats through action on brain macrophage |
|
Nishihara, T.; Sugimoto, K.; Takahashi, H.; Yano, H.; Tanaka, J.; |
| P4-082 |
Minocycline in vitro decreases microglial activation in a CSTB-deficient mouse, a model for progressive myoclonus epilepsy, EPM1 |
|
Okuneva, O.; Körber, I.; Joensuu, T.; Lehesjoki, A.; Kopra, O.; |
| P4-083 |
Astrocytes mediate the ability of microglia to become antigen presenting cells |
|
Padala, N.; Ni, L.; Pratt, L.; Acevedo, G.; Sagar, D.; Jonakait, G.; |
| P4-084 |
Pannexin-1 upregulation in cultured astrocytes is induced by scratch wound |
|
Parabucki, A.; Bjelobaba, I.; Savic, D.; Stojiljkovic, M.; Pekovic, S.; Nedeljkovic, N.; |
| P4-085 |
Laquinimod reduces demyelination and inflammation in cuprizone-treated mice |
|
Pförtner, R.; Brück, W.; Wegner, C.; |
| P4-086 |
Sildenafil treatment regulates glial reactivity and ameliorates spinal cord neuropathology in a mouse model of multiple sclerosis |
|
Pifarré, P.; Prado, J.; Baltrons, M.; Giralt, M.; Gabarro, P.; Feinstein, D.; Hidalgo, J.; Garcia, A.; |
| P4-087 |
TGF-beta1 expression in myeloid cells limits functional recovery after traumatic spinal cord injury |
|
Pineau, I.; Stirling, D.; Lacroix, S.; |
| P4-088 |
Neurotoxic phenotype of neutrophils is induced by transmigration through cerebrovascular endothelium |
|
Pinteaux, E.; Allen, C.; Rothwell, N.; Allan, S.; |
| P4-089 |
CD14 and TRIF govern distinct responsiveness and responses in mouse microglial TLR4 challenges by structural variants of LPS |
|
Regen, T.; van Rossum, D.; Scheffel, J.; Kastriti, M.; Revelo, N.; Janova, H.; Borisch, A.; Prinz, M.; Brück, W.; Hanisch, U.; |
| P4-090 |
The early peripheral and central inflammatory response to interleukin-1-exacerbated excitotoxic brain injury |
|
Robinson, E.; Allan, S.; |
| P4-092 |
Exacerbated neuroinflammation and C/EBPß expression are induced by peripheral inflammation in a mouse model of amyotrophic lateral sclerosis |
|
Saura, J.; Valente, T.; Mancera, P.; Tusell, J.; Serratosa, J.; |
| P4-093 |
In vitro effect of ribavirin and tiazofurin on microglial response to inflammation |
|
Savic, D.; Stojiljkovic, M.; Lavrnja, I.; Parabucki, A.; Dacic, S.; Bjelobaba, I.; Nedeljkovic, N.; Herdegen, T.; Pekovic, S.; |
| P4-094 |
The inflammatory response of microglia in a 3-D multitypic neural cell culture model of traumatic brain injury |
|
Shoemaker, J.; LaPlaca, M.; |
| P4-095 |
Iron accumulation in models for inflammation/degeneration of the central nervous system: Implications in chronic multiple sclerosis? |
|
Schuh, C.; Hametner, S.; Bradl, M.; Lassmann, H.; |
| P4-096 |
Neuropoietic cytokines regulate the development of inflammatory CNS lesions |
|
Slaets, H.; Hendriks, J.; de Vries, H.; Van den Haute, C.; Baekelandt, V.; Stinissen, P.; Hellings, N.; |
| P4-097 |
Modulation of CD200 and CD200R1 expression in vitro by pro- and anti-inflammatory agents and neuronal death |
|
Sola, C.; Dentesano, G.; Tusell, J.; Serratosa, J.; Saura, J.; Gresa-Arribas, N.; |
| P4-098 |
Regulation of progranulin expression in human microglia and astrocytes: implications for neuroinflammatory diseases |
|
Suh, H.; Choi, N.; Tarassishin, L.; Lee, S.; |
| P4-099 |
Microglia in the embryonic cortex |
|
Swinnen, N.; Brône, B.; Legendre, P.; Rigo, J.; |
| P4-100 |
The role of Mertk in demyelination/remyelination |
|
Taylor, L.; Puranam, K.; Ting, J.; Matsushima, G.; |
| P4-101 |
DJ-1 deficiency leads to impairment in microglial activity |
|
Trudler, D.; Frenkel, D.; |
| P4-102 |
Microvesicles in the cerebrospinal fluid reflect microglia/macrophage activation in rodent and human neuro-inflammation |
|
Turola, E.; Muzio, L.; Bergami, A.; Ruffini, F.; Novellino, L.; Riganti, L.; Francolini, M.; Vercelli, A.; Comi, G.; Martino, G.; Matteoli, M.; Furlan, R.; Verderio, C.; |
| P4-103 |
A new role for adenosine A3 receptors in chronic neuroinflammation |
|
Bajramovic, J.; van der Putten, C.; Zuiderwijk-Sick, E.; van Straalen, L.; de Geus, E.; Boven, L.; Kondova, I.; Ijzerman, A.; |
| P4-104 |
Statins amplify TLR-induced responses in microglia via inhibition of cholesterol biosynthesis |
|
van der Putten, C.; Kuipers, H.; Burm, S.; Zuiderwijk-Sick, E.; van Straalen, L.; Kondova, I.; van den Elsen, P.; van den Elsen, P.; Bajramovic, J.; |
| P4-105 |
Withdrawn |
|
|
| P4-106 |
Reciprocal interactions of microglia and mesenchymal stem cells |
|
Vidyadaran, S.; Ramasamy, R.; Jose, S.; Rahmat, Z.; |
| P4-107 |
Astrocyte-targeted IL-10 production increases the expression of MHC-II after facial nerve axotomy |
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Villacampa, N.; Almolda, B.; Hofer, M.; Campbell, I.; González, B.; Castellano, B.; |
| P4-108 |
Neuroinflammation and microglia activation studies: a novel strategy using an invertebrate model, the medicinal leech |
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Vizioli, J.; Accorsi, A.; Croq, F.; Garcon Bocquet, A.; Van Camp, C.; Ziental, N.; Salzet, M.; Lefebvre, C.; Sautiere, P.; |
| P4-109 |
Withdrawn |
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| P4-110 |
Characterization of microglial NF-kappaB expression in wild-type and conditional RelB;LysM-Cre knockout mice |
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Wilke, R.; Haenold, R.; Günschmann, C.; Gompf, A.; Riemann, M.; Weih, F.; |
| P4-111 |
Primary oligodendrocyte death does not elicit anti-CNS immunity |
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Wörtge, S.; Locatelli, G.; Buch, T.; Frommer, F.; Ingold, B.; Karram, K.; Sobottka, B.; Bühlmann, C.; Bechmann, I.; Heppner, F.; Becher, B.; Waisman, A.; |
| P4-112 |
Tissue damage and repair after selective astrocyte depletion in vivo |
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Wrzos, C.; Bennett, J.; Brück, W.; Nessler, S.; Stadelmann, C.; |
| P4-113 |
Acute neurodegeneration triggers an alternative macrophage response |
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Ydens, E.; Goethals, S.; Timmerman, V.; Janssens, S.; |
| P4-116 |
Microglial responses in aged rats after early undernourishment/reduced maternal care and late exercise: stereological analysis of the dentate gyrus |
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Guedes, R.; Lima, C.; Viana, L.; Oliveira, M.; Borges, R.; Cardoso, T.; Almeida, I.; Diniz, D.; Bento-Torres, J.; Pereira, A.; Batista-de-Oliveira, M.; Lopes, A.; Silva, R.; Abadie-Guedes, R.; Amancio-dos-Santos, A.; Lima, D.; Picanco-Diniz, C.; |
| P4-117 |
Analysis of the immune response to CNS damages in the Drosophila model of human polyQ disease |
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Kim, S.; Choi, J.; Bak, M.; |
| P4-118 |
Bid regulates the immunological profile of murine microglia and macrophages |
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Mayo, L.; Levy, A.; Jacob-Hirsch, J.; Amariglio, N.; Rechavi, G.; Stein, R.; |
| P4-119 |
Overexpression of the immunoreceptor CD300f has a neuroprotective role in a model of acute brain injury |
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Sayos Ortega, J.; Alí-Ruiz, D.; Ejarque-Ortíz, A.; Heras-Alvarez, V.; Comas-Casellas, E.; Martinez-Barriocanal, A.; Kamaid, A.; Alvarez-Errico, D.; Negro, M.; Lago, N.; Schwartz Jr., S.; Villaverde, A.; Peluffo, H.; |
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