Robust perisomatic GABAergic self-innervation inhibits basket cells in the human and mouse supragranular neocortex

Abstract

ABSTRACTInhibitory autapses are self-innervating synaptic connections in GABAergic interneurons in the brain. Autapses in neocortical layers have not been systematically investigated, and their function in different mammalian species and specific interneuron types is poorly known. We investigated GABAergic parvalbumin-expressing basket cells (pvBCs) in layer 2/3 (L2/3) in mice as well as in human neocortical tissue resected in deep-brain surgery. Most pvBCs showed robust GABAAR-mediated self-innervation in both species, but autapses were rare in nonfast spiking GABAergic interneurons. Light- and electron microscopy analyses revealed pvBC axons innervating their own soma and proximal dendrites. GABAergic self-inhibition conductance was similar in human and mouse pvBCs and comparable to that of synapses from pvBCs to other L2/3 neurons. Autaptic conductance prolonged somatic inhibition in pvBCs after a spike and inhibited repetitive firing. Perisomatic autaptic inhibition has evolved in pvBCs of various cortical layers and different mammalian species to control discharge of these interneurons.