Gogolla_2009_J.Neurodev.Disord_1_172

Reference

Title : Common circuit defect of excitatory-inhibitory balance in mouse models of autism - Gogolla_2009_J.Neurodev.Disord_1_172
Author(s) : Gogolla N , Leblanc JJ , Quast KB , Sudhof TC , Fagiolini M , Hensch TK
Ref : J Neurodev Disord , 1 :172 , 2009
Abstract :

One unifying explanation for the complexity of Autism Spectrum Disorders (ASD) may lie in the disruption of excitatory/inhibitory (E/I) circuit balance during critical periods of development. We examined whether Parvalbumin (PV)-positive inhibitory neurons, which normally drive experience-dependent circuit refinement (Hensch Nat Rev Neurosci 6:877-888, 1), are disrupted across heterogeneous ASD mouse models. We performed a meta-analysis of PV expression in previously published ASD mouse models and analyzed two additional models, reflecting an embryonic chemical insult (prenatal valproate, VPA) or single-gene mutation identified in human patients (Neuroligin-3, NL-3 R451C). PV-cells were reduced in the neocortex across multiple ASD mouse models. In striking contrast to controls, both VPA and NL-3 mouse models exhibited an asymmetric PV-cell reduction across hemispheres in parietal and occipital cortices (but not the underlying area CA1). ASD mouse models may share a PV-circuit disruption, providing new insight into circuit development and potential prevention by treatment of autism.

PubMedSearch : Gogolla_2009_J.Neurodev.Disord_1_172
PubMedID: 20664807

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Citations formats

Gogolla N, Leblanc JJ, Quast KB, Sudhof TC, Fagiolini M, Hensch TK (2009)
Common circuit defect of excitatory-inhibitory balance in mouse models of autism
J Neurodev Disord 1 :172

Gogolla N, Leblanc JJ, Quast KB, Sudhof TC, Fagiolini M, Hensch TK (2009)
J Neurodev Disord 1 :172