Doublecortin facilitates the elongation of the somatic Golgi apparatus into proximal dendrites

Mutations in the doublecortin (DCX) gene, which encodes a microtubule (MT)-binding protein, cause human cortical malformations, including lissencephaly and subcortical band heterotopia. A deficiency in DCX and DCX-like kinase 1 (DCLK1), a functionally redundant and structurally similar cognate of DC...

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Autores principales: Li, Peijun, Li, Luyao, Yu, Binyuan, Wang, Xinye, Wang, Qi, Lin, Jingjing, Zheng, Yihui, Zhu, Jinjin, He, Minzhi, Xia, Zhaonan, Tu, Mengjing, Liu, Judy S., Lin, Zhenlang, Fu, Xiaoqin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The American Society for Cell Biology 2021
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Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8098852/
https://www.ncbi.nlm.nih.gov/pubmed/33405953
http://dx.doi.org/10.1091/mbc.E19-09-0530
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author Li, Peijun
Li, Luyao
Yu, Binyuan
Wang, Xinye
Wang, Qi
Lin, Jingjing
Zheng, Yihui
Zhu, Jinjin
He, Minzhi
Xia, Zhaonan
Tu, Mengjing
Liu, Judy S.
Lin, Zhenlang
Fu, Xiaoqin
author_facet Li, Peijun
Li, Luyao
Yu, Binyuan
Wang, Xinye
Wang, Qi
Lin, Jingjing
Zheng, Yihui
Zhu, Jinjin
He, Minzhi
Xia, Zhaonan
Tu, Mengjing
Liu, Judy S.
Lin, Zhenlang
Fu, Xiaoqin
author_sort Li, Peijun
collection PubMed
description Mutations in the doublecortin (DCX) gene, which encodes a microtubule (MT)-binding protein, cause human cortical malformations, including lissencephaly and subcortical band heterotopia. A deficiency in DCX and DCX-like kinase 1 (DCLK1), a functionally redundant and structurally similar cognate of DCX, decreases neurite length and increases the number of primary neurites directly arising from the soma. The underlying mechanism is not completely understood. In this study, the elongation of the somatic Golgi apparatus into proximal dendrites, which have been implicated in dendrite patterning, was significantly decreased in the absence of DCX/DCLK1. Phosphorylation of DCX at S47 or S327 was involved in this process. DCX deficiency shifted the distribution of CLASP2 proteins to the soma from the dendrites. In addition to CLASP2, dynein and its cofactor JIP3 were abnormally distributed in DCX-deficient neurons. The association between JIP3 and dynein was significantly increased in the absence of DCX. Down-regulation of CLASP2 or JIP3 expression with specific shRNAs rescued the Golgi phenotype observed in DCX-deficient neurons. We conclude that DCX regulates the elongation of the Golgi apparatus into proximal dendrites through MT-associated proteins and motors.
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spelling pubmed-80988522021-05-16 Doublecortin facilitates the elongation of the somatic Golgi apparatus into proximal dendrites Li, Peijun Li, Luyao Yu, Binyuan Wang, Xinye Wang, Qi Lin, Jingjing Zheng, Yihui Zhu, Jinjin He, Minzhi Xia, Zhaonan Tu, Mengjing Liu, Judy S. Lin, Zhenlang Fu, Xiaoqin Mol Biol Cell Articles Mutations in the doublecortin (DCX) gene, which encodes a microtubule (MT)-binding protein, cause human cortical malformations, including lissencephaly and subcortical band heterotopia. A deficiency in DCX and DCX-like kinase 1 (DCLK1), a functionally redundant and structurally similar cognate of DCX, decreases neurite length and increases the number of primary neurites directly arising from the soma. The underlying mechanism is not completely understood. In this study, the elongation of the somatic Golgi apparatus into proximal dendrites, which have been implicated in dendrite patterning, was significantly decreased in the absence of DCX/DCLK1. Phosphorylation of DCX at S47 or S327 was involved in this process. DCX deficiency shifted the distribution of CLASP2 proteins to the soma from the dendrites. In addition to CLASP2, dynein and its cofactor JIP3 were abnormally distributed in DCX-deficient neurons. The association between JIP3 and dynein was significantly increased in the absence of DCX. Down-regulation of CLASP2 or JIP3 expression with specific shRNAs rescued the Golgi phenotype observed in DCX-deficient neurons. We conclude that DCX regulates the elongation of the Golgi apparatus into proximal dendrites through MT-associated proteins and motors. The American Society for Cell Biology 2021-03-01 /pmc/articles/PMC8098852/ /pubmed/33405953 http://dx.doi.org/10.1091/mbc.E19-09-0530 Text en © 2021 Li et al. “ASCB®,” “The American Society for Cell Biology®,” and “Molecular Biology of the Cell®” are registered trademarks of The American Society for Cell Biology. https://creativecommons.org/licenses/by-nc-sa/3.0/This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License.
spellingShingle Articles
Li, Peijun
Li, Luyao
Yu, Binyuan
Wang, Xinye
Wang, Qi
Lin, Jingjing
Zheng, Yihui
Zhu, Jinjin
He, Minzhi
Xia, Zhaonan
Tu, Mengjing
Liu, Judy S.
Lin, Zhenlang
Fu, Xiaoqin
Doublecortin facilitates the elongation of the somatic Golgi apparatus into proximal dendrites
title Doublecortin facilitates the elongation of the somatic Golgi apparatus into proximal dendrites
title_full Doublecortin facilitates the elongation of the somatic Golgi apparatus into proximal dendrites
title_fullStr Doublecortin facilitates the elongation of the somatic Golgi apparatus into proximal dendrites
title_full_unstemmed Doublecortin facilitates the elongation of the somatic Golgi apparatus into proximal dendrites
title_short Doublecortin facilitates the elongation of the somatic Golgi apparatus into proximal dendrites
title_sort doublecortin facilitates the elongation of the somatic golgi apparatus into proximal dendrites
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8098852/
https://www.ncbi.nlm.nih.gov/pubmed/33405953
http://dx.doi.org/10.1091/mbc.E19-09-0530
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