Ccny knockout mice display an enhanced susceptibility to kainic acid-induced epilepsy

Authors
Hwang, HongikSeo, JiyeonChoi, YuriCho, EunsilSohn, HeesungJang, JaewonLee, A-RamLee, JiyoungKim, SuyeonKoh, Hae-YoungPark, Mikyoung
Issue Date
2020-10
Publisher
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
Citation
PHARMACOLOGICAL RESEARCH, v.160
Abstract
Cyclin Y (CCNY) is a member of cyclin superfamily proteins involved in the regulation of the cell cycle in proliferating cells. Intriguingly, CCNY is highly expressed in terminally differentiated neuronal cells of multiple brain regions and acts as a postsynaptic protein, which plays an inhibitory role in long-term potentiation. However, the pathophysiological significance of CCNY in the nervous system remains largely unexplored. In this study, we revisited our RNA-sequencing (RNA-seq) data obtained from cultured hippocampal neurons virally overexpressing or depleting CCNY. Using RNA-seq-based bioinformatic disease analysis and synaptic gene ontology analysis, we identified that numerous genes associated with epilepsy (e.g. Chrna4, Gabrd, Nhlrc1, Reln, Samd12, Slc6a1, etc.) or neurodegenerative diseases (e.g. Psen1, Pdyn, Ndrg1, etc.) are affected by the level of CCNY expression. In agreement with the RNA-seq-based disease analysis, we found that Ccny knockout (KO) mice are more susceptible to kainic acid-induced epilepsy than wild-type mice. In addition, some epilepsy -associated genes that are regulated by CCNY levels were further validated in the brain of Ccny KO mice at the mRNA and protein levels. Collectively, our findings indicate that CCNY shifts the expression profile of epilepsy associated genes and exerts a protective effect against kainic acid-induced epilepsy, suggesting CCNY as a potential pharmaceutical candidate for the treatment of epilepsy.
Keywords
Cyclin Y; Epilepsy; Seizures; Disease analysis; Synaptic gene ontology; Transcriptome; RNA-sequencing
ISSN
1043-6618
URI
https://pubs.kist.re.kr/handle/201004/118056
DOI
10.1016/j.phrs.2020.105100
Appears in Collections:
KIST Article > 2020
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