Silent synapses generate sparse and orthogonal action potential firing in adult-born hippocampal granule cells

Autor: Josef Bischofberger, Nicolas Toni, Stefanie Heigele, Charlotte Schmidt-Salzmann, Sébastien Sultan, Liyi Li
Jazyk: angličtina
Rok vydání: 2017
Předmět:
0301 basic medicine
Male
Aging
Time Factors
Mouse
hippocampus
Action Potentials
Hippocampal formation
0302 clinical medicine
Glutamates
Postsynaptic potential
Biology (General)
General Neuroscience
Neurogenesis
General Medicine
adult neurogenesis
NMDA receptor signaling
synapse formation
Medicine
Neural coding
Research Article
N-Methylaspartate
QH301-705.5
Science
Presynaptic Terminals
AMPA receptor
Neurotransmission
Biology
Cytoplasmic Granules
Receptors
N-Methyl-D-Aspartate
General Biochemistry
Genetics and Molecular Biology
03 medical and health sciences
Glutamatergic
Animals
synaptic transmission
General Immunology and Microbiology
Action Potentials/drug effects
Action Potentials/physiology
Aging/physiology
Cytoplasmic Granules/drug effects
Cytoplasmic Granules/metabolism
Dendrites/drug effects
Dendrites/metabolism
Excitatory Postsynaptic Potentials/physiology
Glutamates/metabolism
Hippocampus/cytology
Mice
Inbred C57BL
N-Methylaspartate/pharmacology
Neurogenesis/drug effects
Presynaptic Terminals/drug effects
Presynaptic Terminals/metabolism
Receptors
N-Methyl-D-Aspartate/metabolism
Synapses/drug effects
Synapses/physiology
mouse
neuroscience
silent synapses
Excitatory Postsynaptic Potentials
Dendrites
030104 developmental biology
nervous system
Silent synapse
Synapses
Neuroscience
030217 neurology & neurosurgery
Zdroj: eLife, Vol 6 (2017)
eLife, vol. 6, pp. e23612
eLife
Popis: In adult neurogenesis young neurons connect to the existing network via formation of thousands of new synapses. At early developmental stages, glutamatergic synapses are sparse, immature and functionally 'silent', expressing mainly NMDA receptors. Here we show in 2- to 3-week-old young neurons of adult mice, that brief-burst activity in glutamatergic fibers is sufficient to induce postsynaptic AP firing in the absence of AMPA receptors. The enhanced excitability of the young neurons lead to efficient temporal summation of small NMDA currents, dynamic unblocking of silent synapses and NMDA-receptor-dependent AP firing. Therefore, early synaptic inputs are powerfully converted into reliable spiking output. Furthermore, due to high synaptic gain, small dendritic trees and sparse connectivity, neighboring young neurons are activated by different distinct subsets of afferent fibers with minimal overlap. Taken together, synaptic recruitment of young neurons generates sparse and orthogonal AP firing, which may support sparse coding during hippocampal information processing.
Databáze: OpenAIRE
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