线粒体功能障碍和氧化损伤协同促进 X 连锁肾上腺脑白质营养不良中的轴突变性。

Mitochondrial dysfunction and oxidative damage cooperatively fuel axonal degeneration in X-linked adrenoleukodystrophy.

机构信息

Neurometabolic Diseases Laboratory, Institut d'Investigació Biomèdica de Bellvitge (IDIBELL), Hospitalet de Llobregat, 08908 Barcelona, Catalonia, Spain; Institute of Neuropathology, Pathologic Anatomy Service, Bellvitge Biomedical Research Institute, IDIBELL - Hospital Universitari de Bellvitge, L'Hospitalet de Llobregat, 08908 Barcelona, Spain; Center for Biomedical Research on Rare Diseases (CIBERER), U759, ISCIII, Spain.

Institute of Neuropathology, Pathologic Anatomy Service, Bellvitge Biomedical Research Institute, IDIBELL - Hospital Universitari de Bellvitge, L'Hospitalet de Llobregat, 08908 Barcelona, Spain; Center for Biomedical Research on Neurodegenerative Diseases (CIBERNED), Spain.

出版信息

Biochimie. 2014 Mar;98:143-9. doi: 10.1016/j.biochi.2013.09.012. Epub 2013 Sep 24.

DOI:10.1016/j.biochi.2013.09.012

PMID:24076127

Abstract

X-linked adrenoleukodystrophy (X-ALD) is the most frequent inherited monogenic demyelinating disease (minimal incidence 1:17,000). It is often lethal and currently lacks a satisfactory therapy. The disease is caused by loss of function of the ABCD1 gene, a peroxisomal ATP-binding cassette transporter, resulting in the accumulation of VLCFA (very long-chain fatty acids) in organs and plasma. Understanding of the aetiopathogenesis is a prerequisite for the development of novel therapeutic strategies. Functional genomics analysis of an ABCD1 null mouse, a mouse model for adrenomyeloneuropathy, has revealed presymptomatic alterations in several metabolic pathways converging on redox and bioenergetic homeostasis, with failure of mitochondrial OXPHOS disruption and mitochondrial depletion. These defects could be major contributors to the neurodegenerative cascade, as has been reported in several neurodegenerative disorders. Drugs targeting the redox imbalance/mitochondria dysfunction interplay have shown efficacy at halting axonal degeneration and associated disability in the mouse, and thus offer therapeutic hope.

摘要

X 连锁肾上腺脑白质营养不良（X-ALD）是最常见的遗传性单基因脱髓鞘疾病（最低发病率为 1:17000）。它通常是致命的，目前缺乏令人满意的治疗方法。该疾病是由过氧化物酶体 ATP 结合盒转运蛋白 ABCD1 基因功能丧失引起的，导致 VLCFA（超长链脂肪酸）在器官和血浆中积累。对发病机制的理解是开发新的治疗策略的前提。对 ABCD1 基因缺失小鼠（肾上腺脑白质营养不良的小鼠模型）的功能基因组学分析表明，几种代谢途径在氧化还原和生物能量稳态方面出现了亚临床改变，线粒体 OXPHOS 破坏和线粒体耗竭失败。这些缺陷可能是神经退行性级联反应的主要原因，正如在几种神经退行性疾病中所报道的那样。针对氧化还原失衡/线粒体功能障碍相互作用的药物已显示出在阻止轴突变性和相关残疾方面在小鼠中的疗效，因此为治疗提供了希望。

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线粒体功能障碍和氧化损伤协同促进 X 连锁肾上腺脑白质营养不良中的轴突变性。

Mitochondrial dysfunction and oxidative damage cooperatively fuel axonal degeneration in X-linked adrenoleukodystrophy.

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