Literature DB >> 29912324

Foxg1 Regulates the Postnatal Development of Cortical Interneurons.

Wei Shen1, Ru Ba1, Yan Su1, Yang Ni1, Dongsheng Chen1, Wei Xie2, Samuel J Pleasure3, Chunjie Zhao1,4.   

Abstract

Abnormalities in cortical interneurons are closely associated with neurological diseases. Most patients with Foxg1 syndrome experience seizures, suggesting a possible role of Foxg1 in the cortical interneuron development. Here, by conditional deletion of Foxg1, which was achieved by crossing Foxg1fl/fl with the Gad2-CreER line, we found the postnatal distributions of somatostatin-, calretinin-, and neuropeptide Y-positive interneurons in the cortex were impaired. Further investigations revealed an enhanced dendritic complexity and decreased migration capacity of Foxg1-deficient interneurons, accompanied by remarkable downregulation of Dlx1 and CXCR4. Overexpression of Dlx1 or knock down its downstream Pak3 rescued the differentiation detects, demonstrated that Foxg1 functioned upstream of Dlx1-Pak3 signal pathway to regulate the postnatal development of cortical interneurons. Due to the imbalanced neural circuit, Foxg1 mutants showed increased seizure susceptibility. These findings will improve our understanding of the postnatal development of interneurons and help to elucidate the mechanisms underlying seizure in patients carrying Foxg1 mutations.
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Entities:  

Keywords:  CXCR4; Dlx1; Foxg1; interneuron; migration

Mesh:

Substances:

Year:  2019        PMID: 29912324      PMCID: PMC6676970          DOI: 10.1093/cercor/bhy051

Source DB:  PubMed          Journal:  Cereb Cortex        ISSN: 1047-3211            Impact factor:   5.357


  58 in total

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7.  PDK1 regulates the survival of the developing cortical interneurons.

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8.  Early Deletion of Neurod1 Alters Neuronal Lineage Potential and Diminishes Neurogenesis in the Inner Ear.

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  8 in total

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