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脱嘌呤/脱嘧啶核酸内切酶的缺失通过下调APE1/NRF1/NRF2途径损害线粒体功能。

Lack of aprataxin impairs mitochondrial functions via downregulation of the APE1/NRF1/NRF2 pathway.

作者信息

Garcia-Diaz Beatriz, Barca Emanuele, Balreira Andrea, Lopez Luis C, Tadesse Saba, Krishna Sindhu, Naini Ali, Mariotti Caterina, Castellotti Barbara, Quinzii Catarina M

机构信息

Department of Neurology.

Department of Neurology, UOC of Neurology and Neuromuscular Disorders, Department of Neuroscience, University of Messina, Messina 98100, Italy.

出版信息

Hum Mol Genet. 2015 Aug 15;24(16):4516-29. doi: 10.1093/hmg/ddv183. Epub 2015 May 14.

DOI:10.1093/hmg/ddv183
PMID:25976310
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4512623/
Abstract

Ataxia oculomotor apraxia type 1 (AOA1) is an autosomal recessive disease caused by mutations in APTX, which encodes the DNA strand-break repair protein aprataxin (APTX). CoQ10 deficiency has been identified in fibroblasts and muscle of AOA1 patients carrying the common W279X mutation, and aprataxin has been localized to mitochondria in neuroblastoma cells, where it enhances preservation of mitochondrial function. In this study, we show that aprataxin deficiency impairs mitochondrial function, independent of its role in mitochondrial DNA repair. The bioenergetics defect in AOA1-mutant fibroblasts and APTX-depleted Hela cells is caused by decreased expression of SDHA and genes encoding CoQ biosynthetic enzymes, in association with reductions of APE1, NRF1 and NRF2. The biochemical and molecular abnormalities in APTX-depleted cells are recapitulated by knockdown of APE1 in Hela cells and are rescued by overexpression of NRF1/2. Importantly, pharmacological upregulation of NRF1 alone by 5-aminoimidazone-4-carboxamide ribonucleotide does not rescue the phenotype, which, in contrast, is reversed by the upregulation of NRF2 by rosiglitazone. Accordingly, we propose that the lack of aprataxin causes reduction of the pathway APE1/NRF1/NRF2 and their target genes. Our findings demonstrate a critical role of APTX in transcription regulation of mitochondrial function and the pathogenesis of AOA1 via a novel pathomechanistic pathway, which may be relevant to other neurodegenerative diseases.

摘要

1型共济失调动眼失用症(AOA1)是一种常染色体隐性疾病,由APTX基因突变引起,该基因编码DNA链断裂修复蛋白脱嘌呤嘧啶核酸内切酶(APTX)。在携带常见W279X突变的AOA1患者的成纤维细胞和肌肉中已发现辅酶Q10缺乏,并且脱嘌呤嘧啶核酸内切酶已定位到神经母细胞瘤细胞的线粒体中,在那里它增强了线粒体功能的维持。在本研究中,我们表明脱嘌呤嘧啶核酸内切酶缺乏会损害线粒体功能,与其在线粒体DNA修复中的作用无关。AOA1突变型成纤维细胞和APTX缺失的Hela细胞中的生物能量缺陷是由SDHA和编码辅酶Q生物合成酶的基因表达降低引起的,同时伴有APE1、NRF1和NRF2的减少。通过在Hela细胞中敲低APE1可重现APTX缺失细胞中的生化和分子异常,而通过过表达NRF1/2可挽救这些异常。重要的是,5-氨基咪唑-4-甲酰胺核糖核苷酸单独对NRF1的药理上调并不能挽救该表型,相反,罗格列酮对NRF2的上调可逆转该表型。因此,我们提出脱嘌呤嘧啶核酸内切酶的缺乏会导致APE1/NRF1/NRF2及其靶基因通路的减少。我们的研究结果证明了APTX在通过一种新的发病机制途径调节线粒体功能的转录和AOA1发病机制中的关键作用,这可能与其他神经退行性疾病有关。

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