Neuron
Volume 85, Issue 1, 7 January 2015, Pages 116-130
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Article
Delayed Coupling to Feedback Inhibition during a Critical Period for the Integration of Adult-Born Granule Cells

https://doi.org/10.1016/j.neuron.2014.11.023Get rights and content
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Highlights

  • Developing GCs transition from weak to strong coupling to feedback inhibition

  • Mature but not young GCs activate dentate gyrus PV interneurons in vivo

  • Feedback inhibition by mature GCs contributes to sparse coding

  • A computational model reveals developing GCs crucial for input discrimination

Summary

Developing granule cells (GCs) of the adult dentate gyrus undergo a critical period of enhanced activity and synaptic plasticity before becoming mature. The impact of developing GCs on the activity of preexisting dentate circuits remains unknown. Here we combine optogenetics, acute slice electrophysiology, and in vivo chemogenetics to activate GCs at different stages of maturation to study the recruitment of local target networks. We show that immature (4-week-old) GCs can efficiently drive distal CA3 targets but poorly activate proximal interneurons responsible for feedback inhibition (FBI). As new GCs transition toward maturity, they reliably recruit GABAergic feedback loops that restrict spiking of neighbor GCs, a mechanism that would promote sparse coding. Such inhibitory loop impinges only weakly in new cohorts of young GCs. A computational model reveals that the delayed coupling of new GCs to FBI could be crucial to achieve a fine-grain representation of novel inputs in the dentate gyrus.

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