威尔逊病中的线粒体DNA耗竭样综合征

mtDNA depletion-like syndrome in Wilson disease.

作者信息

Medici Valentina, Sarode Gaurav V, Napoli Eleonora, Song Gyu-Young, Shibata Noreene M, Guimarães Andre O, Mordaunt Charles E, Kieffer Dorothy A, Mazi Tagreed A, Czlonkowska Anna, Litwin Tomasz, LaSalle Janine M, Giulivi Cecilia

机构信息

Department of Internal Medicine, Division of Gastroenterology and Hepatology, University of California Davis, Sacramento, CA, USA.

Department of Molecular Biosciences, School of Veterinary Medicine, University of California Davis, Davis, CA, USA.

出版信息

Liver Int. 2020 Nov;40(11):2776-2787. doi: 10.1111/liv.14646. Epub 2020 Sep 30.

DOI:10.1111/liv.14646

PMID:32996699

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8079140/

Abstract

BACKGROUND AND AIMS

Wilson disease (WD) is caused by mutations in the copper transporter ATP7B, with its main pathology attributed to copper-mediated oxidative damage. The limited therapeutic effect of copper chelators and the early occurrence of mitochondrial deficits, however, undermine the prevalence of this mechanism.

METHODS

We characterized mitochondrial DNA copy number and mutations as well as bioenergetic deficits in blood from patients with WD and in livers of tx-j mice, a mouse model of hepatic copper accumulation. In vitro experiments with hepatocytes treated with CuSO were conducted to validate in vivo studies.

RESULTS

Here, for the first time, we characterized the bioenergetic deficits in WD as consistent with a mitochondrial DNA depletion-like syndrome. This is evidenced by enriched DNA synthesis/replication pathways in serum metabolomics and decreased mitochondrial DNA copy number in blood of WD patients as well as decreased mitochondrial DNA copy number, increased citrate synthase activity, and selective Complex IV deficit in livers of the tx-j mouse model of WD. Tx-j mice treated with the copper chelator penicillamine, methyl donor choline or both ameliorated mitochondrial DNA damage but further decreased mitochondrial DNA copy number. Experiments with copper-loaded HepG2 cells validated the concept of a direct copper-mitochondrial DNA interaction.

CONCLUSIONS

This study underlines the relevance of targeting the copper-mitochondrial DNA pool in the treatment of WD separate from the established copper-induced oxidative stress-mediated damage.

摘要

背景与目的

威尔逊病（WD）由铜转运蛋白ATP7B基因突变引起，其主要病理归因于铜介导的氧化损伤。然而，铜螯合剂的治疗效果有限以及线粒体缺陷的早期出现，削弱了这种机制的普遍性。

方法

我们对WD患者血液以及肝铜蓄积小鼠模型tx-j小鼠肝脏中的线粒体DNA拷贝数、突变以及生物能量缺陷进行了表征。用硫酸铜处理肝细胞进行体外实验以验证体内研究。

结果

在此，我们首次将WD中的生物能量缺陷表征为与线粒体DNA耗竭样综合征一致。WD患者血清代谢组学中DNA合成/复制途径富集、血液中线粒体DNA拷贝数减少，以及WD的tx-j小鼠模型肝脏中线粒体DNA拷贝数减少、柠檬酸合酶活性增加和选择性复合体IV缺陷，均证明了这一点。用铜螯合剂青霉胺、甲基供体胆碱或两者治疗的tx-j小鼠改善了线粒体DNA损伤，但进一步降低了线粒体DNA拷贝数。用铜负载的HepG2细胞进行的实验验证了铜与线粒体DNA直接相互作用的概念。

结论

本研究强调了在WD治疗中靶向铜-线粒体DNA库的相关性，这与已确定的铜诱导的氧化应激介导的损伤不同。

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