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Communication‐related assessments in an Angelman syndrome mouse model
Author(s) -
Perrino Peter A.,
Chamberlain Stormy J.,
Eigsti IngeMarie,
Fitch Roslyn Holly
Publication year - 2021
Publication title -
brain and behavior
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.915
H-Index - 41
ISSN - 2162-3279
DOI - 10.1002/brb3.1937
Subject(s) - angelman syndrome , psychology , neurodevelopmental disorder , ube3a , neuroscience , perception , audiology , mecp2 , foxp2 , autism , phenotype , developmental psychology , biology , medicine , genetics , gene , ubiquitin ligase , ubiquitin , transcription factor
Angelman syndrome (AS) is a neurodevelopmental disorder characterized by motor deficits, seizures, some autistic‐like behaviors, and severe impairment of speech. A dysfunction of the maternally imprinted UBE3A gene, coupled with a functional yet silenced paternal copy, results in AS. Although studies of transgenic mouse models have revealed a great deal about neural populations and rescue timeframes for specific features of AS, these studies have largely failed to examine intermediate phenotypes that contribute to the profound communicative disabilities associated with AS. Methods Here, we use a variety of tasks, including assessments of rapid auditory processing and social communication. Expressive vocalizations were directly assessed and correlated against other core behavioral measures (motor, social, acoustic perception) to model putative influences on communication. Results AS mice displayed the characteristic phenotypes associated with Angelman syndrome (i.e., social and motor deficits), as well as marginal enhancements in rapid auditory processing ability. Our characterization of adult ultrasonic vocalizations further showed that AS mice produce fewer vocalizations and vocalized for a shorter amount of time when compared to controls. Additionally, a strong correlation between motor indices and ultrasonic vocalization output was shown, suggesting that the motor impairments in AS may contribute heavily to communication impairments. Conclusion In summary, the combination of motor deficits, social impairment, marginal rapid auditory enhancements, and altered ultrasonic vocalizations reported in a mouse model of AS clearly parallel the human symptoms of the disorder. This mouse model offers a novel route to interrogate the underlying genetic, physiologic, and behavioral influences on the under‐studied topic of impaired communication in AS.

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