在神经元极化过程中，通过Wnt5a-CaMKK-CaMKIα信号通路促进轴突生长。

Facilitation of axon outgrowth via a Wnt5a-CaMKK-CaMKIα pathway during neuronal polarization.

作者信息

Horigane Shin-ichiro, Ageta-Ishihara Natsumi, Kamijo Satoshi, Fujii Hajime, Okamura Michiko, Kinoshita Makoto, Takemoto-Kimura Sayaka, Bito Haruhiko

机构信息

Department of Neurochemistry, Graduate School of Medicine, The University of Tokyo, Igakubu-3-gokan, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-0033, Japan.

Department of Neuroscience I, Research Institute of Environmental Medicine, Nagoya University, Nagoya, 464-8601, Japan.

出版信息

Mol Brain. 2016 Jan 16;9:8. doi: 10.1186/s13041-016-0189-3.

DOI:10.1186/s13041-016-0189-3

PMID:26772170

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4715351/

Abstract

BACKGROUND

Wnt5a, originally identified as a guidance cue for commissural axons, activates a non-canonical pathway critical for cortical axonal morphogenesis. The molecular signaling cascade underlying this event remains obscure.

RESULTS

Through Ca(2+) imaging in acute embryonic cortical slices, we tested if radially migrating cortical excitatory neurons that already bore primitive axons were sensitive to Wnt5a. While Wnt5a only evoked brief Ca(2+) transients in immature neurons present in the intermediate zone (IZ), Wnt5a-induced Ca(2+) oscillations were sustained in neurons that migrated out to the cortical plate (CP). We wondered whether this early Wnt5a-Ca(2+) signaling during neuronal polarization has a morphogenetic consequence. During transition from round to polarized shape, Wnt5a administration to immature cultured cortical neurons specifically promoted axonal, but not dendritic, outgrowth. Pharmacological and genetic inhibition of the CaMKK-CaMKIα pathway abolished Wnt5a-induced axonal elongation, and rescue of CaMKIα in CaMKIα-knockdown neurons restored Wnt5a-mediated axon outgrowth.

CONCLUSIONS

This study suggests that Wnt5a activates Ca(2+) signaling during a neuronal morphogenetic time window when axon outgrowth is critically facilitated. Furthermore, the CaMKK-CaMKIα cascade is required for the axonal growth effect of Wnt5a during neuronal polarization.

摘要

背景

Wnt5a最初被鉴定为连合轴突的导向信号，可激活对皮质轴突形态发生至关重要的非经典信号通路。这一过程背后的分子信号级联仍不清楚。

结果

通过对急性胚胎皮质切片进行钙成像，我们测试了已经具有原始轴突的径向迁移的皮质兴奋性神经元是否对Wnt5a敏感。虽然Wnt5a仅在中间区（IZ）的未成熟神经元中引发短暂的钙瞬变，但Wnt5a诱导的钙振荡在迁移到皮质板（CP）的神经元中持续存在。我们想知道神经元极化过程中这种早期的Wnt5a-钙信号是否具有形态发生学后果。在从圆形向极化形态转变过程中，向未成熟的培养皮质神经元施用Wnt5a可特异性促进轴突而非树突的生长。对CaMKK-CaMKIα信号通路的药理学和遗传学抑制消除了Wnt5a诱导的轴突伸长，并且在CaMKIα敲低的神经元中挽救CaMKIα可恢复Wnt5a介导的轴突生长。

结论

本研究表明，Wnt5a在轴突生长得到关键促进的神经元形态发生时间窗口内激活钙信号。此外，CaMKK-CaMKIα级联在神经元极化过程中对Wnt5a的轴突生长效应是必需的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c0e/4715351/d44dee0e2679/13041_2016_189_Fig1_HTML.jpg

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在神经元极化过程中，通过Wnt5a-CaMKK-CaMKIα信号通路促进轴突生长。

Facilitation of axon outgrowth via a Wnt5a-CaMKK-CaMKIα pathway during neuronal polarization.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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