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Abnormal Development of the Earliest Cortical Circuits in a Mouse Model of Autism Spectrum Disorder.


ABSTRACT: Autism spectrum disorder (ASD) involves deficits in speech and sound processing. Cortical circuit changes during early development likely contribute to such deficits. Subplate neurons (SPNs) form the earliest cortical microcircuits and are required for normal development of thalamocortical and intracortical circuits. Prenatal valproic acid (VPA) increases ASD risk, especially when present during a critical time window coinciding with SPN genesis. Using optical circuit mapping in mouse auditory cortex, we find that VPA exposure on E12 altered the functional excitatory and inhibitory connectivity of SPNs. Circuit changes manifested as "patches" of mostly increased connection probability or strength in the first postnatal week and as general hyper-connectivity after P10, shortly after ear opening. These results suggest that prenatal VPA exposure severely affects the developmental trajectory of cortical circuits and that sensory-driven activity may exacerbate earlier, subtle connectivity deficits. Our findings identify the subplate as a possible common pathophysiological substrate of deficits in ASD.

SUBMITTER: Nagode DA 

PROVIDER: S-EPMC5488290 | biostudies-literature | 2017 Jan

REPOSITORIES: biostudies-literature

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Abnormal Development of the Earliest Cortical Circuits in a Mouse Model of Autism Spectrum Disorder.

Nagode Daniel A DA   Meng Xiangying X   Winkowski Daniel E DE   Smith Ed E   Khan-Tareen Hamza H   Kareddy Vishnupriya V   Kao Joseph P Y JPY   Kanold Patrick O PO  

Cell reports 20170101 5


Autism spectrum disorder (ASD) involves deficits in speech and sound processing. Cortical circuit changes during early development likely contribute to such deficits. Subplate neurons (SPNs) form the earliest cortical microcircuits and are required for normal development of thalamocortical and intracortical circuits. Prenatal valproic acid (VPA) increases ASD risk, especially when present during a critical time window coinciding with SPN genesis. Using optical circuit mapping in mouse auditory c  ...[more]

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