WldS 但不是 Nmnat1 保护多巴胺能神经突免受 MPP+神经毒性。

WldS but not Nmnat1 protects dopaminergic neurites from MPP+ neurotoxicity.

机构信息

Department of Anatomy and Neurobiology, Washington University School of Medicine, Saint Louis, MO 63110, USA.

出版信息

Mol Neurodegener. 2012 Feb 8;7:5. doi: 10.1186/1750-1326-7-5.

DOI:10.1186/1750-1326-7-5

PMID:22315973

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3322348/

Abstract

BACKGROUND

The WldS mouse mutant ("Wallerian degeneration-slow") delays axonal degeneration in a variety of disorders including in vivo models of Parkinson's disease. The mechanisms underlying WldS -mediated axonal protection are unclear, although many studies have attributed WldS neuroprotection to the NAD+-synthesizing Nmnat1 portion of the fusion protein. Here, we used dissociated dopaminergic cultures to test the hypothesis that catalytically active Nmnat1 protects dopaminergic neurons from toxin-mediated axonal injury.

RESULTS

Using mutant mice and lentiviral transduction of dopaminergic neurons, the present findings demonstrate that WldS but not Nmnat1, Nmnat3, or cytoplasmically-targeted Nmnat1 protects dopamine axons from the parkinsonian mimetic N-methyl-4-phenylpyridinium (MPP+). Moreover, NAD+ synthesis is not required since enzymatically-inactive WldS still protects. In addition, NAD+ by itself is axonally protective and together with WldS is additive in the MPP+ model.

CONCLUSIONS

Our data suggest that NAD+ and WldS act through separate and possibly parallel mechanisms to protect dopamine axons. As MPP+ is thought to impair mitochondrial function, these results suggest that WldS might be involved in preserving mitochondrial health or maintaining cellular metabolism.

摘要

背景

WldS 突变鼠（“Wallerian 变性缓慢”）可延迟多种疾病中的轴突变性，包括帕金森病的体内模型。尽管许多研究将 WldS 的神经保护作用归因于融合蛋白中的 NAD+-合成 Nmnat1 部分，但 WldS 介导的轴突保护的机制尚不清楚。在这里，我们使用分离的多巴胺能培养物来测试以下假设：具有催化活性的 Nmnat1 可保护多巴胺能神经元免受毒素介导的轴突损伤。

结果

使用突变小鼠和多巴胺能神经元的慢病毒转导，本研究发现 WldS 而不是 Nmnat1、Nmnat3 或细胞质靶向的 Nmnat1 可保护多巴胺轴突免受帕金森模拟物 N-甲基-4-苯基吡啶（MPP+）的损伤。此外，由于酶失活的 WldS 仍具有保护作用，因此不需要 NAD+合成。此外，NAD+本身具有轴突保护作用，并且与 WldS 一起在 MPP+模型中具有加性作用。

结论

我们的数据表明，NAD+和 WldS 通过独立的、可能是平行的机制来保护多巴胺轴突。由于 MPP+被认为会损害线粒体功能，因此这些结果表明 WldS 可能参与维持线粒体健康或维持细胞代谢。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c5b8/3322348/5f278cb0654b/1750-1326-7-5-1.jpg

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WldS 但不是 Nmnat1 保护多巴胺能神经突免受 MPP+神经毒性。

WldS but not Nmnat1 protects dopaminergic neurites from MPP+ neurotoxicity.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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