Literature DB >> 24290386

Transcriptional dysregulation of neocortical circuit assembly in ASD.

Kenneth Y Kwan1.   

Abstract

Autism spectrum disorders (ASDs) impair social cognition and communication, key higher-order functions centered in the human neocortex. The assembly of neocortical circuitry is a precisely regulated developmental process susceptible to genetic alterations that can ultimately affect cognitive abilities. Because ASD is an early onset neurodevelopmental disorder that disrupts functions executed by the neocortex, miswiring of neocortical circuits has been hypothesized to be an underlying mechanism of ASD. This possibility is supported by emerging genetic findings and data from imaging studies. Recent research on neocortical development has identified transcription factors as key determinants of neocortical circuit assembly, mediating diverse processes including neuronal specification, migration, and wiring. Many of these TFs (TBR1, SOX5, FEZF2, and SATB2) have been implicated in ASD. Here, I will discuss the functional roles of these transcriptional programs in neocortical circuit development and their neurobiological implications for the emerging etiology of ASD.
© 2013 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Axon projections; Cerebral cortex; Corpus callosum; Corticospinal tract; Corticothalamic tract; Neural circuit wiring; Neurodevelopmental disorders; Neurogenesis; Neuronal migration; Transcriptional mechanisms

Mesh:

Substances:

Year:  2013        PMID: 24290386      PMCID: PMC4106301          DOI: 10.1016/B978-0-12-418700-9.00006-X

Source DB:  PubMed          Journal:  Int Rev Neurobiol        ISSN: 0074-7742            Impact factor:   3.230


  189 in total

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Journal:  Nat Genet       Date:  2011-05-15       Impact factor: 38.330
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Review 5.  Transcriptional and epigenetic regulation in thymic epithelial cells.

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6.  Mitochondrial Dysfunction Leads to Cortical Under-Connectivity and Cognitive Impairment.

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Review 7.  Chromatin Remodeling in the Brain-a NuRDevelopmental Odyssey.

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8.  Microarray analysis reveals higher gestational folic Acid alters expression of genes in the cerebellum of mice offspring-a pilot study.

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10.  Action detection using a neural network elucidates the genetics of mouse grooming behavior.

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