| Laboratory |
PI |
International Center |
Collaborator PI |
City |
Country |
Topic |
| Aggregation and Glial Response |
Bengoa |
Oxford University |
Sally Cowley |
Oxford |
Reino Unido |
iPSC differentiation of microglial cells and their response |
| Aggregation and Glial Response |
Bengoa |
UCLA |
Gal Bitan |
Luisiana |
Estados Unidos |
Molecular investigation of the tweezer CLR01 |
| Aggregation and Glial Response |
Bengoa |
University of Bordeaux |
Erwan Bezard |
Burdeos |
Filipinas |
Molecular investigation of the tweezer CLR01 |
| Aggregation and Glial Response |
Bengoa |
University of Zurich |
Adriano Aguzzi |
ZĆŗrich |
Suiza |
LAG3 as a receptor for alpha-synuclein |
| Aggregation and Glial Response |
Bengoa |
University of Florida |
MalĆŗ Tansey |
Florida |
Estados Unidos |
Investigation of a SNCA overexpressing model in the locus coeruleus |
| Brain Circuits Therapeutics |
Hasan |
Dartmoth College |
Ta-Yuan Chang |
Hannover |
Alemania |
Rescuing the ApoE4 genotype by activating sterol biosynthesis in the CNS |
| Brain Circuits Therapeutics |
Hasan |
Emory University |
Thomas Wichmann |
Atlanta |
Estados Unidos |
Chemogenetic manipulation of neurons and astrocytes in the subthalamic nucleus to treat parkinsonism |
| Brain Circuits Therapeutics |
Hasan |
Heidelberg University |
Valery Grinevich |
Heidelberg |
Alemania |
Anatomical mapping of synaptically connected memeory engram across brain regions |
| Brain Circuits Therapeutics |
Hasan |
University of Turin |
Ilaria bertocchi |
TurĆn |
Italia |
Astrocyte NMDA receptors differentially modulates negative and positive reinforcers in learning and memory processes |
| Brain Circuits Therapeutics |
Hasan |
University of Verona |
Marco Campiaghi |
Verona |
Italia |
Genetic manipulation of brain circuits in epilepsy animal models |
| Brain Circuits Therapeutics |
Hasan |
Heidelberg University |
Rainer Spanagel |
Heidelberg |
Alemania |
Addiction engrams and circuit-targted therapeutics |
| Brain Circuits Therapeutics |
Hasan |
Charite University |
Philipp Boehm-Sturm |
BerlĆn |
Alemania |
Mapping and interrogating top-down control of the memory engram of the posttraumatic stress disorder |
| Brain Circuits Therapeutics |
Hasan |
Emory University |
Larry Young |
Atlanta |
Estados Unidos |
Circuit organization of social-bonding engrams in voles |
| Brain Circuits Therapeutics |
Hasan |
Okinawa Instit of Science and Tech |
Bernd Buhn |
Prefectura de Okinawa |
JapĆ³n |
Activity-driven NMDA receptor-dependent calcium maps at the tripartite synapse |
| Brain Circuits Therapeutics |
Hasan |
University of Julich |
Jon Shah |
JĆ¼lich |
Alemania |
Genetic-assisted cellular activty mapping by magnetic resonance imaging |
| Brain Development and Evolution |
GarcĆa-Moreno |
SciLife Laboratory |
Matts Nilsson |
Estocolmo |
Suecia |
In situ sequencing on chick, gecko and mouse brain during development |
| Brain Development and Evolution |
GarcĆa-Moreno |
University of Geneva |
Denis Jabaudon |
Ginebra |
Suiza |
Variations of cell cycle in brain development during evolution |
| Brain Development and Evolution |
GarcĆa-Moreno |
Universiy of Heidelberg |
Henrik Kaessmann |
Heidelberg |
Alemania |
Transcriptomic organization of the avian brain |
| Brain Development and Evolution |
GarcĆa-Moreno |
ETH Zurich |
Iber Dagmar |
ZĆŗrich |
Suiza |
The rol of the timing of neural tube closure in evolution |
| Brain Development and Evolution |
GarcĆa-Moreno |
University of Swansea |
Noemi Picco |
Swansea |
Reino Unido |
Mathematical modelling of cortical development and evolution |
| Cellular Basis of Behavior and Disease |
Mato |
Neurocentre Magendie |
Giovanni Marsicano |
Burdeos |
Filipinas |
Astrocyte CB1 receptors: role in multiple sclerosis |
| Cellular Basis of Behavior and Disease |
Mato |
University of Minnesota |
Alfonso Araque |
Minnesota |
Estados Unidos |
Calcium dynamics in reactive astrocytes |
| Cellular Basis of Behavior and Disease |
Mato |
Insitute of Molecular Biology |
Beat Lutz |
Maguncia |
Alemania |
Oligodendrocyte CB1 receptors in myelin remodeling |
| Cellular Basis of Behavior and Disease |
Soria-GĆ³mez |
Neurocentre Magendie |
Giovanni Marsicano |
Burdeos |
Filipinas |
CB1 and behavior. |
| Cellular Basis of Behavior and Disease |
Soria-GĆ³mez |
University of Maryland |
Joseph F. Cheer |
Maryland |
Estados Unidos |
Cannabinoids and memory |
| Cellular Basis of Behavior and Disease |
Soria-GĆ³mez |
German Primate Center (DPZ) |
Raymundo Baez-Mendoza |
Gotinga |
Alemania |
In vivo Electrophysiology |
| Circadian Physiology of Neurons and Glia |
Astiz |
Institute of Neurobiology, University of LĆ¼beck |
Henrik Oster |
LĆ¼beck |
Alemania |
Long-term metabolic effects of circadian antenatal glucocorticoids given to the pregnant mice |
| Circadian Physiology of Neurons and Glia |
Astiz |
Institute of Human Genetics, University of LĆ¼beck |
Malte Spielmann |
LĆ¼beck |
Alemania |
Single-cell transcriptomic analysis of developmental trajectories of the hypothelamic SCN |
| Circadian Physiology of Neurons and Glia |
Astiz |
Institute of Human Genetics, University of LĆ¼beck |
Henriette Kirchner |
LĆ¼beck |
Alemania |
Circadian effects of glucocorticoids on DNA methylation |
| Circadian Physiology of Neurons and Glia |
Astiz |
Kinderklinic, University of WĆ¼rzburg |
Christoph HƤrtel |
Wurzburgo |
Alemania |
Long-term effects of antenatal glucocorticoids in a cohort of pre-term infants |
| Circadian Physiology of Neurons and Glia |
Astiz |
Institute of Experimental and Clinical Pharmacology and Toxiology, University of LĆ¼beck |
Markus Schwaninger |
LĆ¼beck |
Alemania |
Clock dependent gating of placental transport proteins |
| Circadian Physiology of Neurons and Glia |
Astiz |
Translational Perinatology Laboratory, University hospital Regensburg |
Emilia Solano |
Distrito de Ratisbona |
Alemania |
Long-term hypothalamic effects of antenatal androgens |
| Glia and Matrix Biology |
Alberdi |
Max Planck Institute of Experimental Medicine |
Wiebcke Mƶbius |
Gotinga |
Alemania |
Myelin characterization of a mouse model of AlzheimerĀ“s disease |
| Glia and Matrix Biology |
Alberdi |
Colorado University |
Bruce Appel |
Denver |
Estados Unidos |
Effects of amyloid beta peptide on ligodendrocyte differentiation and myelination in zebra fish |
| Glia and Matrix Biology |
Alberdi |
Karolinska Institutet |
Anna Matton |
Estocolmo |
Suecia |
Cholesterol metabolism and neurodegeneration |
| Glia and Matrix Biology |
Sanchez |
Karolinska Institutet |
GonƧalo Castelo-Branco |
Estocolmo |
Suecia |
Single-cell transcriptomic analysis of oligodendrocytes in a multiple sclerosis model |
| Glia and Matrix Biology |
Sanchez |
University of Saarland |
Frank Kirchhorff |
Hamburgo |
Alemania |
GABA receptors in oligodendrocytes and their role in myelination |
| Glia and Matrix Biology |
Domercq |
IMN, UniversitƩ de Bordeaux |
Eric BouƩ-Grabot |
Burdeos |
Filipinas |
Impact of increased surface P2X4 receptor in multiple sclerosis pathogenesis |
| Glia and Matrix Biology |
Domercq |
University of Hamburg |
Bjƶrn Rissiek |
Hamburgo |
Alemania |
Immune response and infiltration after autoimmune demyelination |
| Glia and Matrix Biology |
Domercq |
University of Groningen |
Bart Eggen |
Groninga |
PaĆses Bajos |
Transcriptomic profiling of microglia after autoimmune demyelination |
| Glia and Matrix Biology |
Soria |
Bordeaux Neurocampus |
Benjamin Dehay |
Burdeos |
Filipinas |
Acidic nanoparticles to restore lysosomal function |
| Glia and Matrix Biology |
Soria |
University of Padova |
Laura Civiero |
Padua |
Italia |
3D scaffolds for the culture of glial cells |
| Glial Cell Biology |
Sierra |
Claude Bernard University |
Marlene Wiart |
Lyon |
Francia |
Visualizing and manipulating microglial phagocytosis in stroke |
| Glial Cell Biology |
Sierra |
Oxford University |
JosƩ Antonio Carrillo |
Oxford |
Reino Unido |
Mathematical modeling of microglial invasion in the developing brai |
| Glial Cell Biology |
Sierra |
Zurich University |
Rosa Paolicelli |
ZĆŗrich |
Suiza |
Role of TDP43 and SHIP1 on microglial development |
| Glial Cell Biology |
Sierra |
DZNE |
Christian Haas |
MĆŗnich |
Alemania |
Role of TREM2 on microglial development |
| Glial Cell Biology |
Sierra |
UniversitƩ Libre de Bruxelles |
Valerie Wittamer |
RegiĆ³n de Bruselas-Capital |
BĆ©lgica |
Comparative microglial development in mice and zebrafish |
| Glial Cell Biology |
Sierra |
Roche Pharmaceuticals |
Markus Britschgi |
Basilea |
Suiza |
Pharmacological phagocytosis modulators |
| Glial Cell Biology |
Sierra |
CharitƩ Hospital |
Susane Wolf |
BerlĆn |
Alemania |
Role of NL4 on microglial phagocytosis and neurogenesis |
| GTPases and Neurosignalling |
Zugaza |
University of Dundee |
Daan van Aalten |
Dundee |
Reino Unido |
CRISPR-Cas9 technique to dissect the effects of AĆ oligomers on the PTMs by O-GlcNAcylation in microglia |
| Humanized Models of Disease |
Arranz |
VIB-KU |
Bart De Strooper |
Lovaina |
BĆ©lgica |
Contribution of astrocytic ApoE to AD pathogenesis |
| Humanized Models of Disease |
Arranz |
Boston University |
Julia TCW |
Boston |
Estados Unidos |
Impact of APOE on human glia and contribution to AD pathology |
| Humanized Models of Disease |
Arranz |
Nencki Institute of Experimental Biology |
Aleksandra Pekowska |
Varsovia |
Polonia |
Interlaminar astrocytes in primates ? from molecular signature to functions in vivo |
| Humanized Models of Disease |
Arranz |
Gladstone Institutes, UCSF |
Ryan Corces |
San Francisco |
Estados Unidos |
Epigenetic and transcriptomic profiles of hiPSC-derived brain cells |
| Local Translation in Neurons and Glia |
Baleriola |
Tel Aviv University |
Eran Perlson |
Tel Aviv |
Israel |
Extracelular vesicle transfer form fglia to axons |
| Local Translation in Neurons and Glia |
Baleriola |
CollĆØge de France |
Martin Cohen-Salmon |
ParĆs |
Francia |
Local translation in AD |
| Local Translation in Neurons and Glia |
Baleriola |
Columbia University |
Marko Jovanovic |
Nueva York |
Estados Unidos |
Proteomics of neurites |
| Local Translation in Neurons and Glia |
Baleriola |
Columbia University |
Ulrich Hengst |
Nueva York |
Estados Unidos |
Local translation of transcription factors |
| Neural Stem Cells and Neurogenesis |
Encinas |
Champalimaud Centre for the Unknown |
Christa Rhiner |
Lisboa |
Portugal |
Fly-to-mouse unravelling of pro-regenerative signalling in TBI |
| Neural Stem Cells and Neurogenesis |
Encinas |
Cardiff University |
David Petrik |
Cardiff |
Reino Unido |
Hypothalamic adult neurogenesis and food intake |
| Neural Stem Cells and Neurogenesis |
Encinas |
CRTD |
Federico Calegario |
Dresde |
Alemania |
Adult neurogenesis and regulation of neuronal network activity |
| Neural Stem Cells and Neurogenesis |
Encinas |
University of Amsterdam |
Carlos Fitzsimons |
Ćmsterdam |
PaĆses Bajos |
Sequencing of NSCs in TBI |
| Neural Stem Cells and Neurogenesis |
Encinas |
University of Bordeaux |
Timothee Levi |
Burdeos |
Filipinas |
Computational analysis of multielectrode array in vivo recordings |
| Neural Stem Cells and Neurogenesis |
Encinas |
University of Texas San Antonio |
Jenny HsieH |
San Antonio |
Estados Unidos |
Aberrant neurogenesis in epilepsy |
| Neural Stem Cells and Neurogenesis |
Encinas |
Itlaian Institute of Technology |
Davide De Pietri |
GĆ©nova |
Italia |
Regulation of NSCs by microRNAs |
| Neural Stem Cells and Neurogenesis |
Pineda |
University of Bordeaux |
Yann Humeau/ FrƩdƩric Lanore |
Burdeos |
Filipinas |
Characterization and integration of DPSCs and their extracellular vesicles in neural circuits. |
| BBioH |
Cavaliere |
Universidad del Piemonte Oriental |
Dmitri Lim |
Novara |
Italia |
Role of mitochondria-ER interaction in cellular dysfunction of Parkinson?s disease astrocyte |
| BBioH |
Cavaliere |
Universidad de Padova |
Laura Civiero |
Padua |
Italia |
Unravelling novel players in astrocyte-mediated phagocytosis |
| Neurobiology of Insulin Peptides |
Torres |
University of Tsukuba |
Hideaki Soya |
Tsukuba |
JapĆ³n |
Neuroprotection by exercise |
| Neurobiology of Insulin Peptides |
Torres |
Diabetes Center |
Matthias Tschop |
MĆŗnich |
Alemania |
Astrocyte insulin signalling |
| Neurobiology of Insulin Peptides |
Torres |
Tokyo University |
Shin Ichiro Takahashi |
Tokio |
JapĆ³n |
Insulin signaling pathways |
| Neuroimaging and Biomarkers of Inflammation |
MartĆn |
CharitƩ ? University Medicine Berlin |
Philipp Boehm-Sturm |
BerlĆn |
Alemania |
19F-MRI in preclinical stroke |
| Neuroimaging and Biomarkers of Inflammation |
MartĆn |
Normandie University, UNICAEN |
Maxime Gauberti |
Caen |
Francia |
Imaging of vascular inflammation and BBB integrity after stroke |
| Neuroimaging and Biomarkers of Inflammation |
MartĆn |
UniversitƩ d?Artois |
Marie-Pierre Dehouck |
Artois |
Estados Unidos |
Human BBB in vitro models |
| Neuroimaging and Biomarkers of Inflammation |
MartĆn |
Hungarian Centre of Excellence for Molecular Medicine |
Domokos MƔthƩ |
Budapest |
HungrĆa |
SPECT imaging of haemorrhagic stroke |
| Neuroimaging and Biomarkers of Inflammation |
MartĆn |
Columbia University |
Rafael Yuste |
Nueva York |
Estados Unidos |
Nanoparticles based neural interface |
| Neuronal and Glial Physiology |
Kukley |
University of Naples |
Francesca Boscia |
NƔpoles |
Italia |
Ion channels in multiple sclerosis |
| Neuronal and Glial Physiology |
Kukley |
University of Southern Denmark |
Zsolt Illes, Maria Louise Elkjaer |
Odense |
Dinamarca |
Ion channels in multiple sclerosis |
| Neuronal and Glial Physiology |
Kukley |
University of Rochester Medical Center |
Bartosz Kula |
Rochester |
Estados Unidos |
Developmental changes at neuron-glia synapses |
| Neuronal and Glial Physiology |
Kukley |
Icahn School of Medicine, Mount Sinai Hospital |
Ting-Jiun Chen |
Nueva York |
Estados Unidos |
Developmental changes at neuron-glia synapses |
| Neuronal and Glial Physiology |
Kukley |
Institute of Science and Technology (IST) |
Balint Nagy |
Klosterneuburg |
Austria |
Developmental changes at neuron-glia synapses |
| Neuronal and Glial Physiology |
Kukley |
Fresno State University |
Anahit Hovhannisyan |
Fresno |
Estados Unidos |
Developmental changes at neuron-glia synapses |
| Neuronal and Glial Physiology |
Kukley |
Ohio State University |
Wenjing Sun |
Columbus |
Estados Unidos |
Computation approaches to study neuron-glia synapses |
| Neuronal Excitability |
Tonnesen |
University of San Antonio, Texas |
Fidel Santamaria |
Texas |
Estados Unidos |
Computational modelling of diffusion in the brain |
| Ultrastructural and Functional Neuroanatomy of the Synapse |
Grandes |
Neurocentre Magendie |
Giovanni Marsicano |
Burdeos |
Filipinas |
Subcellular localization of CB1 receptors in brain cells and mitochondria |
| Ultrastructural and Functional Neuroanatomy of the Synapse |
Grandes |
University of Zurich |
JosĆ© MarĆa Mateos |
ZĆŗrich |
Suiza |
Array SEM for detection of drug damage in the brain |
| Ultrastructural and Functional Neuroanatomy of the Synapse |
Grandes |
University of Victoria |
Brian Christie |
Victoria |
CanadĆ” |
Cannabinoid receptors after mild traumatic brain injury |
| Ultrastructural and Functional Neuroanatomy of the Synapse |
Grandes |
University of Victoria |
Patrick Nahirney |
Victoria |
CanadĆ” |
Adolescent ethanol intake and CB1 receptors in adult brain |
| Ultrastructural and Functional Neuroanatomy of the Synapse |
Grandes |
University of Victoria |
Raad Nashmi |
Victoria |
CanadĆ” |
Spatial distribution of cholinergic inputs onto dopaminergic neurons |
| Ultrastructural and Functional Neuroanatomy of the Synapse |
Grandes |
University of Calgary |
Roger J. Thompson |
Calgary |
CanadĆ” |
Pannexin-1 function in the brain |
| Ultrastructural and Functional Neuroanatomy of the Synapse |
Grandes |
Albert Einstein College of Medicine |
Pablo E. Castillo |
Nueva York |
Estados Unidos |
I-mGluRs and bidirectional NMDAR plasticity |
| Ultrastructural and Functional Neuroanatomy of the Synapse |
Grandes |
University of Washington |
Nephi Stella |
Seattle |
Estados Unidos |
CB1 receptors in medium spiny neurons in behavioral control |
| Ultrastructural and Functional Neuroanatomy of the Synapse |
Grandes |
Washington State University |
Ryan J. McLaughlin |
Pullman |
Estados Unidos |
Endocannabinoid signaling in the lateral habenula |
