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  • GABAergic interneurons form transient layer-specific circuits in early postnatal neocortex.

GABAergic interneurons form transient layer-specific circuits in early postnatal neocortex.

Nature communications (2016-02-05)
Paul G Anastasiades, Andre Marques-Smith, Daniel Lyngholm, Tom Lickiss, Sayda Raffiq, Dennis Kätzel, Gero Miesenböck, Simon J B Butt
ABSTRACT

GABAergic interneurons play key roles in cortical circuits, yet little is known about their early connectivity. Here we use glutamate uncaging and a novel optogenetic strategy to track changes in the afferent and efferent synaptic connections of developing neocortical interneuron subtypes. We find that Nkx2-1-derived interneurons possess functional synaptic connections before emerging pyramidal cell networks. Subsequent interneuron circuit maturation is both subtype and layer dependent. Glutamatergic input onto fast spiking (FS), but not somatostatin-positive, non-FS interneurons increases over development. Interneurons of both subtype located in layers (L) 4 and 5b engage in transient circuits that disappear after the somatosensory critical period. These include a pathway mediated by L5b somatostatin-positive interneurons that specifically targets L4 during the first postnatal week. The innervation patterns of immature cortical interneuron circuits are thus neither static nor progressively strengthened but follow a layer-specific choreography of transient connections that differ from those of the adult brain.