6533b856fe1ef96bd12b1f07
RESEARCH PRODUCT
Axonal control of the adult neural stem cell niche.
Cheuk Ka TongArturo Alvarez-buyllaJosé Manuel García-verdugoArantxa Cebrián-sillaCristina D. GuintoLaurence H. TecottArnold R. KriegsteinZaman MirzadehKirsten ObernierJiadong Chensubject
Cellular differentiationMessengerRegenerative MedicineMedical and Health SciencesImmunoenzyme TechniquesLateral ventriclesMice0302 clinical medicineNeural Stem CellsReceptor Serotonin 5-HT2C5-HT2CStem Cell NicheNeurons0303 health sciencesMicroscopyBlottingReverse Transcriptase Polymerase Chain ReactionNeurogenesisBrainCell DifferentiationAnatomyBiological SciencesNeural stem cellCell biologySerotonin Receptor AgonistsElectrophysiologyNeurologicalMolecular MedicineStem Cell Research - Nonembryonic - Non-HumanWesternReceptorSerotoninEpendymal CellNeurogenesis1.1 Normal biological development and functioningBlotting WesternBiologySerotonergicReal-Time Polymerase Chain ReactionElectronArticle03 medical and health sciencesUnderpinning researchGeneticsAnimalsRNA Messenger030304 developmental biologyCell ProliferationRapheNeurosciencesCell BiologyStem Cell ResearchAxonsMicroscopy Electronnervous systemRaphe NucleiRNARaphe nuclei030217 neurology & neurosurgeryDevelopmental Biologydescription
SummaryThe ventricular-subventricular zone (V-SVZ) is an extensive germinal niche containing neural stem cells (NSCs) in the walls of the lateral ventricles of the adult brain. How the adult brain’s neural activity influences the behavior of adult NSCs remains largely unknown. We show that serotonergic (5HT) axons originating from a small group of neurons in the raphe form an extensive plexus on most of the ventricular walls. Electron microscopy revealed intimate contacts between 5HT axons and NSCs (B1) or ependymal cells (E1) and these cells were labeled by a transsynaptic viral tracer injected into the raphe. B1 cells express the 5HT receptors 2C and 5A. Electrophysiology showed that activation of these receptors in B1 cells induced small inward currents. Intraventricular infusion of 5HT2C agonist or antagonist increased or decreased V-SVZ proliferation, respectively. These results indicate that supraependymal 5HT axons directly interact with NSCs to regulate neurogenesis via 5HT2C.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2014-04-01 |