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Wilson 病的修饰因子和表型多样性。

Modifying factors and phenotypic diversity in Wilson's disease.

机构信息

Department of Physiology, Johns Hopkins University, Baltimore, Maryland.

出版信息

Ann N Y Acad Sci. 2014 May;1315:56-63. doi: 10.1111/nyas.12420. Epub 2014 Apr 4.

DOI:10.1111/nyas.12420
PMID:24702697
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4083489/
Abstract

Wilson's disease (WD) is a human disorder of copper homeostasis caused by mutations in the copper-transporting ATPase ATP7B. WD is characterized by copper accumulation, predominantly in the liver and brain, hepatic pathology, and wide differences between patients in the age of onset and the spectrum of symptoms. Several factors contribute to the phenotypic variability of WD. The WD-causing mutations produce a wide range of changes in stability, activity, intracellular localization, and trafficking of ATP7B; the nonpathogenic genetic polymorphisms may contribute to the phenotype. In Atp7b(-/-) mice, a mouse model of WD, an abnormal intracellular distribution of copper in the liver triggers distinct changes in the transcriptome; these mRNA profiles might be used to more specifically define disease progression. The major effect of accumulating copper on lipid metabolism and especially cholesterol homeostasis in mice and humans suggests the importance of fat and cholesterol metabolism as modifying factors in WD.

摘要

威尔逊病(WD)是一种由铜转运 ATP 酶 ATP7B 基因突变引起的人类铜稳态紊乱。WD 的特征是铜积累,主要在肝脏和大脑中,肝病理,以及患者发病年龄和症状谱之间存在很大差异。有几个因素导致 WD 的表型变异。WD 致病突变导致 ATP7B 的稳定性、活性、细胞内定位和运输发生广泛变化;非致病性遗传多态性可能导致表型。在 Atp7b(-/-) 小鼠,即 WD 的小鼠模型中,肝脏中铜的异常细胞内分布引发转录组的明显变化;这些 mRNA 图谱可用于更具体地定义疾病进展。在小鼠和人类中,积累的铜对脂质代谢的主要影响,特别是胆固醇稳态,表明脂肪和胆固醇代谢作为 WD 的修饰因素的重要性。

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