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通过肽免疫-SRM对干血斑中ATP7B蛋白进行定量分析作为威尔逊病的潜在筛查方法。

Quantification of ATP7B Protein in Dried Blood Spots by Peptide Immuno-SRM as a Potential Screen for Wilson's Disease.

作者信息

Jung Sunhee, Whiteaker Jeffrey R, Zhao Lei, Yoo Han-Wook, Paulovich Amanda G, Hahn Si Houn

机构信息

Seattle Children's Hospital Research Institute , Seattle, Washington 98101, United States.

Fred Hutchison Cancer Research Center , Seattle, Washington 98109, United States.

出版信息

J Proteome Res. 2017 Feb 3;16(2):862-871. doi: 10.1021/acs.jproteome.6b00828. Epub 2016 Dec 9.

DOI:10.1021/acs.jproteome.6b00828
PMID:27935710
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5574172/
Abstract

Wilson's Disease (WD), a copper transport disorder caused by a genetic defect in the ATP7B gene, has been a long time strong candidate for newborn screening (NBS), since early interventions can give better results by preventing irreversible neurological disability or liver cirrhosis. Several previous pilot studies measuring ceruloplasmin (CP) in infants or children showed that this marker alone was insufficient to meet the universal screening for WD. WD results from mutations that cause absent or markedly diminished levels of ATP7B. Therefore, ATP7B could serve as a marker for the screening of WD, if the protein can be detected from dried blood spots (DBS). This study demonstrates that the immuno-SRM platform can quantify ATP7B in DBS in the picomolar range, and that the assay readily distinguishes affected cases from normal controls (p < 0.0001). The assay precision was <10% CV, and the protein was stable for a week in DBS at room temperature. These promising proof-of-concept data open up the possibility of screening WD in newborns and the potential for a multiplexed assay for screening a variety of congenital disorders using proteins as biomarkers in DBS.

摘要

威尔逊病(WD)是一种由ATP7B基因的遗传缺陷引起的铜转运障碍疾病,长期以来一直是新生儿筛查(NBS)的有力候选对象,因为早期干预通过预防不可逆的神经功能残疾或肝硬化可以取得更好的效果。此前多项针对婴儿或儿童血清铜蓝蛋白(CP)的初步研究表明,仅这一标志物不足以满足对WD的普遍筛查。WD是由导致ATP7B水平缺失或显著降低的突变引起的。因此,如果能从干血斑(DBS)中检测到该蛋白,ATP7B可作为WD筛查的标志物。本研究表明,免疫-SRM平台能够在皮摩尔范围内对DBS中的ATP7B进行定量,并且该检测方法能够轻松区分患病个体与正常对照(p < 0.0001)。检测精度的变异系数(CV)<10%,该蛋白在室温下于DBS中可稳定保存一周。这些颇具前景的概念验证数据为新生儿WD筛查开辟了可能性,也为利用DBS中的蛋白质作为生物标志物进行多种先天性疾病的多重检测提供了潜力。

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