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Persistent Structural Plasticity Optimizes Sensory Information Processing in the Olfactory Bulb.


ABSTRACT: In the mammalian brain, the anatomical structure of neural circuits changes little during adulthood. As a result, adult learning and memory are thought to result from specific changes in synaptic strength. A possible exception is the olfactory bulb (OB), where activity guides interneuron turnover throughout adulthood. These adult-born granule cell (GC) interneurons form new GABAergic synapses that have little synaptic strength plasticity. In the face of persistent neuronal and synaptic turnover, how does the OB balance flexibility, as is required for adapting to changing sensory environments, with perceptual stability? Here we show that high dendritic spine turnover is a universal feature of GCs, regardless of their developmental origin and age. We find matching dynamics among postsynaptic sites on the principal neurons receiving the new synaptic inputs. We further demonstrate in silico that this coordinated structural plasticity is consistent with stable, yet flexible, decorrelated sensory representations. Together, our study reveals that persistent, coordinated synaptic structural plasticity between interneurons and principal neurons is a major mode of functional plasticity in the OB.

SUBMITTER: Sailor KA 

PROVIDER: S-EPMC5476833 | biostudies-literature | 2016 Jul

REPOSITORIES: biostudies-literature

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Persistent Structural Plasticity Optimizes Sensory Information Processing in the Olfactory Bulb.

Sailor Kurt A KA   Valley Matthew T MT   Wiechert Martin T MT   Riecke Hermann H   Sun Gerald J GJ   Adams Wayne W   Dennis James C JC   Sharafi Shirin S   Ming Guo-Li GL   Song Hongjun H   Lledo Pierre-Marie PM  

Neuron 20160630 2


In the mammalian brain, the anatomical structure of neural circuits changes little during adulthood. As a result, adult learning and memory are thought to result from specific changes in synaptic strength. A possible exception is the olfactory bulb (OB), where activity guides interneuron turnover throughout adulthood. These adult-born granule cell (GC) interneurons form new GABAergic synapses that have little synaptic strength plasticity. In the face of persistent neuronal and synaptic turnover,  ...[more]

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