Cargando…
SNX14 deficiency-induced defective axonal mitochondrial transport in Purkinje cells underlies cerebellar ataxia and can be reversed by valproate
Loss-of-function mutations in sorting nexin 14 (SNX14) cause autosomal recessive spinocerebellar ataxia 20, which is a form of early-onset cerebellar ataxia that lacks molecular mechanisms and mouse models. We generated Snx14-deficient mouse models and observed severe motor deficits and cell-autonom...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Oxford University Press
2021
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8310771/ https://www.ncbi.nlm.nih.gov/pubmed/34691693 http://dx.doi.org/10.1093/nsr/nwab024 |
| _version_ | 1783728832054820864 |
|---|---|
| author | Zhang, Hongfeng Hong, Yujuan Yang, Weijie Wang, Ruimin Yao, Ting Wang, Jian Liu, Ke Yuan, Huilong Xu, Chaoqun Zhou, Yuanyuan Li, Guanxian Zhang, Lishan Luo, Hong Zhang, Xian Du, Dan Sun, Hao Zheng, Qiuyang Zhang, Yun-Wu Zhao, Yingjun Zhou, Ying Xu, Huaxi Wang, Xin |
| author_facet | Zhang, Hongfeng Hong, Yujuan Yang, Weijie Wang, Ruimin Yao, Ting Wang, Jian Liu, Ke Yuan, Huilong Xu, Chaoqun Zhou, Yuanyuan Li, Guanxian Zhang, Lishan Luo, Hong Zhang, Xian Du, Dan Sun, Hao Zheng, Qiuyang Zhang, Yun-Wu Zhao, Yingjun Zhou, Ying Xu, Huaxi Wang, Xin |
| author_sort | Zhang, Hongfeng |
| collection | PubMed |
| description | Loss-of-function mutations in sorting nexin 14 (SNX14) cause autosomal recessive spinocerebellar ataxia 20, which is a form of early-onset cerebellar ataxia that lacks molecular mechanisms and mouse models. We generated Snx14-deficient mouse models and observed severe motor deficits and cell-autonomous Purkinje cell degeneration. SNX14 deficiency disrupted microtubule organization and mitochondrial transport in axons by destabilizing the microtubule-severing enzyme spastin, which is implicated in dominant hereditary spastic paraplegia with cerebellar ataxia, and compromised axonal integrity and mitochondrial function. Axonal transport disruption and mitochondrial dysfunction further led to degeneration of high-energy-demanding Purkinje cells, which resulted in the pathogenesis of cerebellar ataxia. The antiepileptic drug valproate ameliorated motor deficits and cerebellar degeneration in Snx14-deficient mice via the restoration of mitochondrial transport and function in Purkinje cells. Our study revealed an unprecedented role for SNX14-dependent axonal transport in cerebellar ataxia, demonstrated the convergence of SNX14 and spastin in mitochondrial dysfunction, and suggested valproate as a potential therapeutic agent. |
| format | Online Article Text |
| id | pubmed-8310771 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2021 |
| publisher | Oxford University Press |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-83107712021-10-21 SNX14 deficiency-induced defective axonal mitochondrial transport in Purkinje cells underlies cerebellar ataxia and can be reversed by valproate Zhang, Hongfeng Hong, Yujuan Yang, Weijie Wang, Ruimin Yao, Ting Wang, Jian Liu, Ke Yuan, Huilong Xu, Chaoqun Zhou, Yuanyuan Li, Guanxian Zhang, Lishan Luo, Hong Zhang, Xian Du, Dan Sun, Hao Zheng, Qiuyang Zhang, Yun-Wu Zhao, Yingjun Zhou, Ying Xu, Huaxi Wang, Xin Natl Sci Rev Research Article Loss-of-function mutations in sorting nexin 14 (SNX14) cause autosomal recessive spinocerebellar ataxia 20, which is a form of early-onset cerebellar ataxia that lacks molecular mechanisms and mouse models. We generated Snx14-deficient mouse models and observed severe motor deficits and cell-autonomous Purkinje cell degeneration. SNX14 deficiency disrupted microtubule organization and mitochondrial transport in axons by destabilizing the microtubule-severing enzyme spastin, which is implicated in dominant hereditary spastic paraplegia with cerebellar ataxia, and compromised axonal integrity and mitochondrial function. Axonal transport disruption and mitochondrial dysfunction further led to degeneration of high-energy-demanding Purkinje cells, which resulted in the pathogenesis of cerebellar ataxia. The antiepileptic drug valproate ameliorated motor deficits and cerebellar degeneration in Snx14-deficient mice via the restoration of mitochondrial transport and function in Purkinje cells. Our study revealed an unprecedented role for SNX14-dependent axonal transport in cerebellar ataxia, demonstrated the convergence of SNX14 and spastin in mitochondrial dysfunction, and suggested valproate as a potential therapeutic agent. Oxford University Press 2021-02-10 /pmc/articles/PMC8310771/ /pubmed/34691693 http://dx.doi.org/10.1093/nsr/nwab024 Text en © The Author(s) 2021. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd. https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) ), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited. |
| spellingShingle | Research Article Zhang, Hongfeng Hong, Yujuan Yang, Weijie Wang, Ruimin Yao, Ting Wang, Jian Liu, Ke Yuan, Huilong Xu, Chaoqun Zhou, Yuanyuan Li, Guanxian Zhang, Lishan Luo, Hong Zhang, Xian Du, Dan Sun, Hao Zheng, Qiuyang Zhang, Yun-Wu Zhao, Yingjun Zhou, Ying Xu, Huaxi Wang, Xin SNX14 deficiency-induced defective axonal mitochondrial transport in Purkinje cells underlies cerebellar ataxia and can be reversed by valproate |
| title | SNX14 deficiency-induced defective axonal mitochondrial transport in Purkinje cells underlies cerebellar ataxia and can be reversed by valproate |
| title_full | SNX14 deficiency-induced defective axonal mitochondrial transport in Purkinje cells underlies cerebellar ataxia and can be reversed by valproate |
| title_fullStr | SNX14 deficiency-induced defective axonal mitochondrial transport in Purkinje cells underlies cerebellar ataxia and can be reversed by valproate |
| title_full_unstemmed | SNX14 deficiency-induced defective axonal mitochondrial transport in Purkinje cells underlies cerebellar ataxia and can be reversed by valproate |
| title_short | SNX14 deficiency-induced defective axonal mitochondrial transport in Purkinje cells underlies cerebellar ataxia and can be reversed by valproate |
| title_sort | snx14 deficiency-induced defective axonal mitochondrial transport in purkinje cells underlies cerebellar ataxia and can be reversed by valproate |
| topic | Research Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8310771/ https://www.ncbi.nlm.nih.gov/pubmed/34691693 http://dx.doi.org/10.1093/nsr/nwab024 |
| work_keys_str_mv | AT zhanghongfeng snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT hongyujuan snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT yangweijie snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT wangruimin snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT yaoting snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT wangjian snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT liuke snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT yuanhuilong snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT xuchaoqun snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT zhouyuanyuan snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT liguanxian snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT zhanglishan snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT luohong snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT zhangxian snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT dudan snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT sunhao snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT zhengqiuyang snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT zhangyunwu snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT zhaoyingjun snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT zhouying snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT xuhuaxi snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate AT wangxin snx14deficiencyinduceddefectiveaxonalmitochondrialtransportinpurkinjecellsunderliescerebellarataxiaandcanbereversedbyvalproate |