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Open Access@KRIBBDivision of A.I. & Biomedical ResearchDigital Biotech Innovation Center1. Journal Articles

Spastin contributes to neural development through the regulation of microtubule dynamics in the primary cilia of neural stem cells

Cited 12 time in scopus
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dc.contributor.authorBohyeon Jeong-
dc.contributor.authorTae Hwan Kim-
dc.contributor.authorDae Soo Kim-
dc.contributor.authorW H Shin-
dc.contributor.authorJae-Ran Lee-
dc.contributor.authorNam-Soon Kim-
dc.contributor.authorDa Yong Lee-
dc.date.accessioned2019-07-10T01:23:36Z-
dc.date.available2019-07-10T01:23:36Z-
dc.date.issued2019-
dc.identifier.issn0306-4522-
dc.identifier.uri10.1016/j.neuroscience.2019.05.024ko
dc.identifier.urihttps://oak.kribb.re.kr/handle/201005/18822-
dc.description.abstractSpastin is a microtubule-severing enzyme encoded by SPAST, which is broadly expressed in various cell types originated from multiple organs. Even though SPAST is well known as a regulator of the axon growth and arborization in neurons and a genetic factor of hereditary spastic paraplegia, it also takes part in a wide range of other cellular functions including the regulation of cell division and proliferation. In this study, we investigated a novel biological role of spastin in developing brain using Spast deficient mouse embryonic neural stem cells (NSCs) and perinatal mouse brain. We found that the expression of spastin begins at early embryonic stages in mouse brain. Using Spast shRNA treated NSCs and mouse brain, we showed that Spast deficiency leads to decrease of NSC proliferation and neuronal lineage differentiation. Finally, we found that spastin controls NSC proliferation by regulating microtubule dynamics in primary cilia. Collectively, these data demonstrate that spastin controls brain development by the regulation of NSC functions at early developmental stages.-
dc.publisherElsevier-
dc.titleSpastin contributes to neural development through the regulation of microtubule dynamics in the primary cilia of neural stem cells-
dc.title.alternativeSpastin contributes to neural development through the regulation of microtubule dynamics in the primary cilia of neural stem cells-
dc.typeArticle-
dc.citation.titleNeuroscience-
dc.citation.number0-
dc.citation.endPage85-
dc.citation.startPage76-
dc.citation.volume411-
dc.contributor.affiliatedAuthorBohyeon Jeong-
dc.contributor.affiliatedAuthorTae Hwan Kim-
dc.contributor.affiliatedAuthorDae Soo Kim-
dc.contributor.affiliatedAuthorJae-Ran Lee-
dc.contributor.affiliatedAuthorNam-Soon Kim-
dc.contributor.affiliatedAuthorDa Yong Lee-
dc.contributor.alternativeName정보현-
dc.contributor.alternativeName김태환-
dc.contributor.alternativeName김대수-
dc.contributor.alternativeName신원호-
dc.contributor.alternativeName이재란-
dc.contributor.alternativeName김남순-
dc.contributor.alternativeName이다용-
dc.identifier.bibliographicCitationNeuroscience, vol. 411, pp. 76-85-
dc.identifier.doi10.1016/j.neuroscience.2019.05.024-
dc.subject.keywordspastin-
dc.subject.keywordneural stem cell-
dc.subject.keywordbrain development-
dc.subject.keywordprimary cilia-
dc.subject.keywordmicrotubule.-
dc.subject.localspastin-
dc.subject.localSpastin-
dc.subject.localneural stem cell-
dc.subject.localNeural stem cell-
dc.subject.localNeural stem cells-
dc.subject.localNeural stem cells (NSCs)-
dc.subject.localbrain development-
dc.subject.localPrimary cilia-
dc.subject.localprimary cilia-
dc.subject.localmicrotubule.-
dc.description.journalClassY-
Appears in Collections:
Division of A.I. & Biomedical Research > Digital Biotech Innovation Center > 1. Journal Articles
Synthetic Biology and Bioengineering Research Institute > Genome Editing Research Center > 1. Journal Articles
Division of A.I. & Biomedical Research > Genomic Medicine Research Center > 1. Journal Articles
Division of A.I. & Biomedical Research > Biotherapeutics Translational Research Center > 1. Journal Articles
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