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    Please use this identifier to cite or link to this item: https://nccur.lib.nccu.edu.tw/handle/140.119/149443


    Title: CDKL5-mediated developmental tuning of neuronal excitability and concomitant regulation of transcriptome
    Authors: 廖文霖
    Liao, Wenlin;Lee, Kun-Ze
    Contributors: 神科所
    Keywords: CDKL5 deficiency disorder (CDD);KCC2;RNA sequencing (RNA-seq);electroencephalography (EEG);neonatal epilepsy
    Date: 2023-12
    Issue Date: 2024-01-29 09:45:17 (UTC+8)
    Abstract: Cyclin-dependent kinase-like 5 (CDKL5) is a serine-threonine kinase enriched in the forebrain to regulate neuronal development and function. Patients with CDKL5 deficiency disorder (CDD), a severe neurodevelopmental condition caused by mutations of CDKL5 gene, present early-onset epilepsy as the most prominent feature. However, spontaneous seizures have not been reported in mouse models of CDD, raising vital questions on the human-mouse differences and the roles of CDKL5 in early postnatal brains. Here, we firstly measured electroencephalographic (EEG) activities via a wireless telemetry system coupled with video-recording in neonatal mice. We found that mice lacking CDKL5 exhibited spontaneous epileptic EEG discharges, accompanied with increased burst activities and ictal behaviors, specifically at postnatal day 12 (P12). Intriguingly, those epileptic spikes disappeared after P14. We next performed an unbiased transcriptome profiling in the dorsal hippocampus and motor cortex of Cdkl5 null mice at different developmental timepoints, uncovering a set of age-dependent and brain region-specific alterations of gene expression in parallel with the transient display of epileptic activities. Finally, we validated multiple differentially expressed genes, such as glycine receptor alpha 2 and cholecystokinin, at the transcript or protein levels, supporting the relevance of these genes to CDKL5-regulated excitability. Our findings reveal early-onset neuronal hyperexcitability in mouse model of CDD, providing new insights into CDD etiology and potential molecular targets to ameliorate intractable neonatal epilepsy.
    Relation: Human Molecular Genetics, Vol.32, No.23, pp.3276-3298
    Data Type: article
    DOI link: https://doi.org/10.1093/hmg/ddad149
    DOI: 10.1093/hmg/ddad149
    Appears in Collections:[Graduate Institute of Neuroscience] Periodical Articles

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