Neural connections and molecular mechanisms underlying motor skill deficits in genetic models of autism spectrum disorders.

Abstract

Autism spectrum disorders (ASDs) comprise a broad category of neurodevelopmental disorders that include repetitive behaviors and difficulties in social interactions. Notably, individuals with ASDs exhibit significant impairments in motor skills even prior to the manifestation of other core symptoms. These skills are crucial for daily activities, such as communication, imitation, and exploration, and hold significant importance for individuals with ASDs. This review seeks to offer new insights into the understanding of motor skill impairments by delineating the pathological mechanisms underlying motor skill learning impairments associated with gene mutations in Fmr1, Chd8, Shank3, BTBR, 16p11.2, and Mecp2, predominantly drawing from well-characterized genetic mouse model studies and proposing potential targets for future therapeutic interventions. We further discuss the underlying pathogenic abnormalities associated with the development of specific brain regions within the cerebellum and cerebrum, as well as disruptions in the structure and function of critical neuronal connectivity pathways. Additional research utilizing epidemiological data, clinical observations, and animal research methodologies is warranted to enhance our understanding of the effect of motor skill learning on the growth, development, and social integration of children. Ultimately, our review suggests potential targets for future therapeutic interventions.