An autism-associated serotonin transporter variant disrupts multisensory processing

Altered sensory processing is observed in many children with autism spectrum disorder (ASD), with growing evidence that these impairments extend to the integration of information across the different senses (that is, multisensory function). The serotonin system has an important role in sensory devel...

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Published in:Translational psychiatry 2017-03, Vol.7 (3), p.e1067-e1067
Main Authors: Siemann, J K, Muller, C L, Forsberg, C G, Blakely, R D, Veenstra-VanderWeele, J, Wallace, M T
Format: Article
Language:English
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631/378
Acoustic Stimulation
Animals
Auditory Perception - genetics
Autism Spectrum Disorder - genetics
Autism Spectrum Disorder - physiopathology
Autism Spectrum Disorder - psychology
Autistic Disorder - genetics
Autistic Disorder - physiopathology
Autistic Disorder - psychology
Behavior, Animal
Behavioral Sciences
Biological Psychology
Cognition
Genetic Variation
Learning
Medicine
Medicine & Public Health
Mice
Mutation
Neurosciences
Original
original-article
Pharmacotherapy
Photic Stimulation
Psychiatry
Serotonin Plasma Membrane Transport Proteins - genetics
Visual Perception - genetics
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description Altered sensory processing is observed in many children with autism spectrum disorder (ASD), with growing evidence that these impairments extend to the integration of information across the different senses (that is, multisensory function). The serotonin system has an important role in sensory development and function, and alterations of serotonergic signaling have been suggested to have a role in ASD. A gain-of-function coding variant in the serotonin transporter (SERT) associates with sensory aversion in humans, and when expressed in mice produces traits associated with ASD, including disruptions in social and communicative function and repetitive behaviors. The current study set out to test whether these mice also exhibit changes in multisensory function when compared with wild-type (WT) animals on the same genetic background. Mice were trained to respond to auditory and visual stimuli independently before being tested under visual, auditory and paired audiovisual (multisensory) conditions. WT mice exhibited significant gains in response accuracy under audiovisual conditions. In contrast, although the SERT mutant animals learned the auditory and visual tasks comparably to WT littermates, they failed to show behavioral gains under multisensory conditions. We believe these results provide the first behavioral evidence of multisensory deficits in a genetic mouse model related to ASD and implicate the serotonin system in multisensory processing and in the multisensory changes seen in ASD.
doi_str_mv 10.1038/tp.2017.17
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In contrast, although the SERT mutant animals learned the auditory and visual tasks comparably to WT littermates, they failed to show behavioral gains under multisensory conditions. We believe these results provide the first behavioral evidence of multisensory deficits in a genetic mouse model related to ASD and implicate the serotonin system in multisensory processing and in the multisensory changes seen in ASD.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>28323282</pmid><doi>10.1038/tp.2017.17</doi><oa>free_for_read</oa></addata></record>
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subjects 631/378
Acoustic Stimulation
Animals
Auditory Perception - genetics
Autism Spectrum Disorder - genetics
Autism Spectrum Disorder - physiopathology
Autism Spectrum Disorder - psychology
Autistic Disorder - genetics
Autistic Disorder - physiopathology
Autistic Disorder - psychology
Behavior, Animal
Behavioral Sciences
Biological Psychology
Cognition
Genetic Variation
Learning
Medicine
Medicine & Public Health
Mice
Mutation
Neurosciences
Original
original-article
Pharmacotherapy
Photic Stimulation
Psychiatry
Serotonin Plasma Membrane Transport Proteins - genetics
Visual Perception - genetics
title An autism-associated serotonin transporter variant disrupts multisensory processing
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