Litcius/Paper detail

The organization and development of cortical interneuron presynaptic circuits are area specific

Gabrielle Pouchelon, Deepanjali Dwivedi, Yannick Bollmann, Chimuanya K. Agba, Qing Xu, Andrea MC Mirow, Sehyun Kim, Yanjie Qiu, Elaine Sevier, Kimberly Ritola, Rosa Cossart, Gord Fishell

2021Cell Reports63 citationsDOIOpen Access PDF

Abstract

Parvalbumin and somatostatin inhibitory interneurons gate information flow in discrete cortical areas that compute sensory and cognitive functions. Despite the considerable differences between areas, individual interneuron subtypes are genetically invariant and are thought to form canonical circuits regardless of which area they are embedded in. Here, we investigate whether this is achieved through selective and systematic variations in their afferent connectivity during development. To this end, we examined the development of their inputs within distinct cortical areas. We find that interneuron afferents show little evidence of being globally stereotyped. Rather, each subtype displays characteristic regional connectivity and distinct developmental dynamics by which this connectivity is achieved. Moreover, afferents dynamically regulated during development are disrupted by early sensory deprivation and in a model of fragile X syndrome. These data provide a comprehensive map of interneuron afferents across cortical areas and reveal the logic by which these circuits are established during development.

Topics & Concepts

InterneuronNeuroscienceParvalbuminSensory systemAfferentBiologyBiological neural networkInhibitory postsynaptic potentialGenetics and Neurodevelopmental DisordersNeuroscience and Neuropharmacology ResearchNeural dynamics and brain function
The organization and development of cortical interneuron presynaptic circuits are area specific | Litcius