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Enhanced motor cortex output and disinhibition in asymptomatic female mice with C9orf72 genetic expansion

Sona Amalyan, Suhel Tamboli, Ivan Lazarevich, Dimitry Topolnik, Leandra Harriet Bouman, Lisa Topolnik

2022Cell Reports21 citationsDOIOpen Access PDF

Abstract

Information and action coding by cortical circuits relies on a balanced dialogue between excitation and inhibition. Circuit hyperexcitability is considered a potential pathophysiological mechanism in various brain disorders, but the underlying deficits, especially at early disease stages, remain largely unknown. We report that asymptomatic female mice carrying the chromosome 9 open reading frame 72 (C9orf72) repeat expansion, which represents a high-prevalence genetic abnormality for human amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD) spectrum disorder, exhibit abnormal motor cortex output. The number of primary motor cortex (M1) layer 5 pyramidal neurons is reduced in asymptomatic mice, with the surviving neurons receiving a decreased inhibitory drive that results in a higher M1 output, specifically during high-speed animal locomotion. Importantly, using deep-learning algorithms revealed that speed-dependent M1 output predicts the likelihood of C9orf72 genetic expansion. Our data link early circuit abnormalities with a gene mutation in asymptomatic ALS/FTLD carriers.

Topics & Concepts

C9orf72NeuroscienceDisinhibitionAsymptomaticAmyotrophic lateral sclerosisMotor cortexPrimary motor cortexBiologyMedicineTrinucleotide repeat expansionDiseasePathologyGeneticsGeneAlleleStimulationAmyotrophic Lateral Sclerosis ResearchGenetic Neurodegenerative DiseasesParkinson's Disease Mechanisms and Treatments
Enhanced motor cortex output and disinhibition in asymptomatic female mice with C9orf72 genetic expansion | Litcius