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Activity-based sensing fluorescent probes for iron in biological systems.基于活性的生物体系铁离子荧光探针
Curr Opin Chem Biol. 2018 Apr;43:113-118. doi: 10.1016/j.cbpa.2017.12.010. Epub 2018 Jan 5.
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Ferroptosis: A Regulated Cell Death Nexus Linking Metabolism, Redox Biology, and Disease.铁死亡:连接代谢、氧化还原生物学与疾病的一种调控性细胞死亡关联
Cell. 2017 Oct 5;171(2):273-285. doi: 10.1016/j.cell.2017.09.021.
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Thermodynamic and Kinetic Analyses of Iron Response Element (IRE)-mRNA Binding to Iron Regulatory Protein, IRP1.铁反应元件(IRE)-mRNA 与铁调节蛋白 1(IRP1)结合的热力学和动力学分析。
Sci Rep. 2017 Aug 17;7(1):8532. doi: 10.1038/s41598-017-09093-5.
4
Redox speciation of iron, manganese, and copper in cerebrospinal fluid by strong cation exchange chromatography - sector field inductively coupled plasma mass spectrometry.采用强阳离子交换色谱-扇形场电感耦合等离子体质谱法测定脑脊液中铁、锰、铜的氧化还原形态。
Anal Chim Acta. 2017 Jun 22;973:25-33. doi: 10.1016/j.aca.2017.03.040. Epub 2017 Apr 7.
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Not just amyloid: physiological functions of the amyloid precursor protein family.不仅是淀粉样蛋白:淀粉样前体蛋白家族的生理功能。
Nat Rev Neurosci. 2017 May;18(5):281-298. doi: 10.1038/nrn.2017.29. Epub 2017 Mar 31.
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Lipid peroxidation in cell death.细胞死亡中的脂质过氧化作用。
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"Manganese-induced neurotoxicity: a review of its behavioral consequences and neuroprotective strategies".锰诱导的神经毒性:其行为后果及神经保护策略综述
BMC Pharmacol Toxicol. 2016 Nov 4;17(1):57. doi: 10.1186/s40360-016-0099-0.
8
A role for amyloid precursor protein translation to restore iron homeostasis and ameliorate lead (Pb) neurotoxicity.淀粉样前体蛋白翻译在恢复铁稳态和改善铅(Pb)神经毒性方面的作用。
J Neurochem. 2016 Aug;138(3):479-94. doi: 10.1111/jnc.13671.
9
Iron mitigates DMT1-mediated manganese cytotoxicity via the ASK1-JNK signaling axis: Implications of iron supplementation for manganese toxicity.铁通过ASK1-JNK信号轴减轻DMT1介导的锰细胞毒性:铁补充对锰毒性的影响
Sci Rep. 2016 Feb 16;6:21113. doi: 10.1038/srep21113.
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Iron stimulates plasma-activated medium-induced A549 cell injury.铁刺激血浆激活培养基诱导的A549细胞损伤。
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锰通过翻译抑制淀粉样前体蛋白和 H 铁蛋白引起神经毒性铁积累。

Manganese causes neurotoxic iron accumulation via translational repression of amyloid precursor protein and H-Ferritin.

机构信息

Department of Hematology and Medical Oncology, University Medical Center Göttingen (UMG), Göttingen, Germany.

Institute of Pathology, University Medical Center Göttingen (UMG), Göttingen, Germany.

出版信息

J Neurochem. 2018 Dec;147(6):831-848. doi: 10.1111/jnc.14580. Epub 2018 Nov 19.

DOI:10.1111/jnc.14580
PMID:30152072
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6310653/
Abstract

For more than 150 years, it is known that occupational overexposure of manganese (Mn) causes movement disorders resembling Parkinson's disease (PD) and PD-like syndromes. However, the mechanisms of Mn toxicity are still poorly understood. Here, we demonstrate that Mn dose- and time-dependently blocks the protein translation of amyloid precursor protein (APP) and heavy-chain Ferritin (H-Ferritin), both iron homeostatic proteins with neuroprotective features. APP and H-Ferritin are post-transcriptionally regulated by iron responsive proteins, which bind to homologous iron responsive elements (IREs) located in the 5'-untranslated regions (5'-UTRs) within their mRNA transcripts. Using reporter assays, we demonstrate that Mn exposure repressed the 5'-UTR-activity of APP and H-Ferritin, presumably via increased iron responsive proteins-iron responsive elements binding, ultimately blocking their protein translation. Using two specific Fe -specific probes (RhoNox-1 and IP-1) and ion chromatography inductively coupled plasma mass spectrometry (IC-ICP-MS), we show that loss of the protective axis of APP and H-Ferritin resulted in unchecked accumulation of redox-active ferrous iron (Fe ) fueling neurotoxic oxidative stress. Enforced APP expression partially attenuated Mn-induced generation of cellular and lipid reactive oxygen species and neurotoxicity. Lastly, we could validate the Mn-mediated suppression of APP and H-Ferritin in two rodent in vivo models (C57BL6/N mice and RjHan:SD rats) mimicking acute and chronic Mn exposure. Together, these results suggest that Mn-induced neurotoxicity is partly attributable to the translational inhibition of APP and H-Ferritin resulting in impaired iron metabolism and exacerbated neurotoxic oxidative stress. OPEN SCIENCE BADGES: This article has received a badge for Open Materials because it provided all relevant information to reproduce the study in the manuscript. The complete Open Science Disclosure form for this article can be found at the end of the article. More information about the Open Practices badges can be found at https://cos.io/our-services/open-science-badges/.

摘要

150 多年来,人们已经知道职业性锰(Mn)暴露会导致类似于帕金森病(PD)的运动障碍和 PD 样综合征。然而,锰毒性的机制仍知之甚少。在这里,我们证明 Mn 剂量和时间依赖性地阻断了淀粉样前体蛋白(APP)和重链铁蛋白(H-Ferritin)的蛋白质翻译,这两种铁稳态蛋白都具有神经保护特性。APP 和 H-Ferritin 是由铁反应蛋白后转录调控的,铁反应蛋白结合到它们的 mRNA 转录物中 5'-非翻译区(5'-UTR)内的同源铁反应元件(IREs)上。通过报告基因检测,我们证明 Mn 暴露抑制了 APP 和 H-Ferritin 的 5'-UTR 活性,推测是通过增加铁反应蛋白-铁反应元件结合,最终阻断其蛋白质翻译。使用两种特异性 Fe 探针(RhoNox-1 和 IP-1)和离子色谱电感耦合等离子体质谱(IC-ICP-MS),我们表明 APP 和 H-Ferritin 保护轴的丧失导致未被控制的氧化还原活性亚铁(Fe )积累,从而引发神经毒性氧化应激。强制表达 APP 部分减轻了 Mn 诱导的细胞和脂质活性氧和神经毒性的产生。最后,我们可以在两个模拟急性和慢性 Mn 暴露的啮齿动物体内模型(C57BL6/N 小鼠和 RjHan:SD 大鼠)中验证 Mn 介导的 APP 和 H-Ferritin 抑制。总之,这些结果表明,Mn 诱导的神经毒性部分归因于 APP 和 H-Ferritin 的翻译抑制,导致铁代谢受损和神经毒性氧化应激加剧。

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本文因提供了重现论文中研究的所有相关信息而获得了开放材料徽章。本文的完整开放科学披露表格可以在文章末尾找到。有关开放实践徽章的更多信息,请访问 https://cos.io/our-services/open-science-badges/。