Nicotinic regulation of local and long-range input balance drives top-down attentional circuit maturation

Elisa N. Falk, Kevin J. Norman, Yury Garkun, Michael P. Demars, Susanna Im, Giulia Taccheri, Jenna Short, Keaven Caro, Sarah E. McCraney, Christina Cho, Milo R. Smith, Hung Mo Lin, Hiroyuki Koike, Julia Bateh, Priscilla Maccario, Leah Waltrip, Meaghan Janis, Hirofumi Morishita

Research output: Contribution to journalArticlepeer-review

13 Scopus citations

Abstract

Cognitive function depends on frontal cortex development; however, the mechanisms driving this process are poorly understood. Here, we identify that dynamic regulation of the nicotinic cholinergic system is a key driver of attentional circuit maturation associated with top-down frontal neurons projecting to visual cortex. The top-down neurons receive robust cholinergic inputs, but their nicotinic tone decreases following adolescence by increasing expression of a nicotinic brake, Lynx1. Lynx1 shifts a balance between local and long-range inputs onto top-down frontal neurons following adolescence and promotes the establishment of attentional behavior in adulthood. This key maturational process is disrupted in a mouse model of fragile X syndrome but was rescued by a suppression of nicotinic tone through the introduction of Lynx1 in top-down projections. Nicotinic signaling may serve as a target to rebalance local/long-range balance and treat cognitive deficits in neurodevelopmental disorders.

Original languageEnglish
Article numbereabe1527
JournalScience advances
Volume7
Issue number10
DOIs
StatePublished - 3 Mar 2021

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