线粒体 aconitase 的氧化失活导致大鼠原代中脑细胞中铁和 H2O2 介导的神经毒性。

Oxidative inactivation of mitochondrial aconitase results in iron and H2O2-mediated neurotoxicity in rat primary mesencephalic cultures.

机构信息

Neuroscience Program, University of Colorado Denver, Anschutz Medical Campus, Aurora, Colorado, USA.

出版信息

PLoS One. 2009 Sep 18;4(9):e7095. doi: 10.1371/journal.pone.0007095.

DOI:10.1371/journal.pone.0007095

PMID:19763183

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2738973/

Abstract

BACKGROUND

Mitochondrial oxidative stress is a contributing factor in the etiology of numerous neuronal disorders. However, the precise mechanism(s) by which mitochondrial reactive oxygen species (ROS) modify cellular targets to induce the death of neurons remains unknown. The goal of this study was to determine if oxidative inactivation of mitochondrial aconitase (m-aconitase) resulted in the release of redox-active iron (Fe2+) and hydrogen peroxide (H2O2) and whether this contributes to cell death.

METHODOLOGY/PRINCIPAL FINDINGS: Incubation of rat primary mesencephalic cultures with the redox cycling herbicide paraquat (PQ2+) resulted in increased production of H2O2 and Fe2+ at times preceding cell death. To confirm the role of m-aconitase as a source of Fenton reagents and death, we overexpressed m-aconitase using an adenoviral construct thereby increasing the target available for inactivation by ROS. Co-labeling studies identified astrocytes as the predominant cell type expressing transduced m-aconitase although neurons were identified as the primary cell type dying. Oxidative inactivation of m-aconitase overexpressing cultures resulted in exacerbation of H2O2 production, Fe2+ accumulation and increased neuronal death. Increased cell death in m-aconitase overexpressing cultures was attenuated by addition of catalase and/or a cell permeable iron chelator suggesting that neuronal death occurred in part via astrocyte-derived H2O2.

CONCLUSIONS

These results suggest a role of ROS-sensitive m-aconitase as a source of Fe2+ and H2O2 and as a contributing factor to neurotoxicity.

摘要

背景

线粒体氧化应激是许多神经元疾病发病的一个因素。然而，线粒体活性氧（ROS）改变细胞靶标诱导神经元死亡的确切机制尚不清楚。本研究的目的是确定线粒体鸟氨酸（m-aconitase）的氧化失活是否导致还原活性铁（Fe2+）和过氧化氢（H2O2）的释放，以及这是否导致细胞死亡。

方法/主要发现：用氧化还原循环除草剂百草枯（PQ2+）孵育大鼠原代中脑培养物，在细胞死亡前的时间内增加 H2O2 和 Fe2+的产生。为了证实 m-aconitase 作为 Fenton 试剂和死亡的来源的作用，我们使用腺病毒构建体过表达 m-aconitase，从而增加了 ROS 失活的靶标。共标记研究确定星形胶质细胞是表达转导 m-aconitase 的主要细胞类型，尽管神经元被鉴定为主要死亡的细胞类型。过表达 m-aconitase 的培养物中 m-aconitase 的氧化失活导致 H2O2 产生、Fe2+积累和神经元死亡增加。过表达 m-aconitase 的培养物中细胞死亡增加可被添加过氧化氢酶和/或细胞通透铁螯合剂减弱，表明神经元死亡部分通过星形胶质细胞衍生的 H2O2 发生。

结论

这些结果表明 ROS 敏感的 m-aconitase 作为 Fe2+和 H2O2 的来源以及神经毒性的一个促成因素发挥作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9dea/2738973/f014a09b36a7/pone.0007095.g001.jpg

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线粒体 aconitase 的氧化失活导致大鼠原代中脑细胞中铁和 H2O2 介导的神经毒性。

Oxidative inactivation of mitochondrial aconitase results in iron and H2O2-mediated neurotoxicity in rat primary mesencephalic cultures.

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