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공공누리This item is licensed Korea Open Government License

dc.contributor.author
최수연
dc.contributor.author
한기훈
dc.contributor.author
Kaifang Pang
dc.contributor.author
Zhandong Liu
dc.contributor.author
강효진
dc.contributor.author
김원기
dc.contributor.author
김주연
dc.contributor.author
김현
dc.contributor.author
류재륜
dc.contributor.author
선웅
dc.date.accessioned
2019-08-28T07:41:41Z
dc.date.available
2019-08-28T07:41:41Z
dc.date.issued
2015-11-16
dc.identifier.issn
1756-6606
dc.identifier.uri
https://repository.kisti.re.kr/handle/10580/14391
dc.identifier.uri
http://www.ndsl.kr/ndsl/search/detail/article/articleSearchResultDetail.do?cn=NART76638552
dc.description.abstract
BackgroundProper neuronal function requires tight control of gene dosage, and failure of this process underlies the pathogenesis of multiple neuropsychiatric disorders. The SHANK3 gene encoding core scaffolding proteins at glutamatergic postsynapse is a typical dosage-sensitive gene, both deletions and duplications of which are associated with Phelan-McDermid syndrome, autism spectrum disorders, bipolar disorder, intellectual disability, or schizophrenia. However, the regulatory mechanism of SHANK3 expression in neurons itself is poorly understood.ResultsHere we show post-transcriptional regulation of SHANK3 expression by three microRNAs (miRNAs), miR-7, miR-34a, and miR-504. Notably, the expression profiles of these miRNAs were previously shown to be altered in some neuropsychiatric disorders which are also associated with SHANK3 dosage changes. These miRNAs regulated the expression of SHANK3 and other genes encoding actin-related proteins that interact with Shank3, through direct binding sites in the 3′ untranslated region (UTR). Moreover, overexpression or inhibition of miR-7 and miR-504 affected the dendritic spines of the cultured hippocampal neurons in a Shank3-dependent manner. We further characterized miR-504 as it showed the most significant effect on both SHANK3 expression and dendritic spines among the three miRNAs. Lentivirus-mediated overexpression of miR-504, which mimics its reported expression change in postmortem brain tissues of bipolar disorder, decreased endogenous Shank3 protein in cultured hippocampal neurons. We also revealed that miR-504 is expressed in the cortical and hippocampal regions of human and mouse brains.ConclusionsOur study provides new insight into the miRNA-mediated regulation of SHANK3 expression, and its potential implication in multiple neuropsychiatric disorders associated with altered SHANK3 and miRNA expression profiles.
dc.language
eng
dc.relation.ispartofseries
Molecular Brain
dc.title
Post-transcriptional regulation of SHANK3 expression by microRNAs related to multiple neuropsychiatric disorders
dc.citation.number
74
dc.citation.volume
8
dc.subject.keyword
SHANK3
dc.subject.keyword
Post-transcriptional regulation
dc.subject.keyword
microRNA
dc.subject.keyword
Dendritic spine
dc.subject.keyword
Bipolar disorder
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