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采用免疫磁珠纯化粒细胞对胱氨酸病进行诊断和监测。

Diagnosis and Monitoring of Cystinosis Using Immunomagnetically Purified Granulocytes.

机构信息

Biochemical Genetics and Metabolomics Laboratory, Department of Pediatrics, University of California, San Diego, La Jolla, CA.

出版信息

Clin Chem. 2016 May;62(5):766-72. doi: 10.1373/clinchem.2015.252494. Epub 2016 Mar 15.

Abstract

BACKGROUND

Cystine determination is a critical biochemical test for the diagnosis and therapeutic monitoring of the lysosomal storage disease cystinosis. The classical mixed-leukocyte cystine assay requires prompt specialized recovery/isolation following blood drawing, providing cystine concentrations normalized to total protein from assorted types of white blood cells, each with varying cystine content.

METHODS

We present a new workflow for cystine determination using immunomagnetic granulocyte purification, and new reference ranges established from 47 patient and 27 obligate heterozygote samples assayed. Samples were collected in acid-citrate dextrose tubes and their stability was proven to allow for overnight shipping before analysis. Cystine was quantified by LC-MS/MS.

RESULTS

The new method was reproducible (<15% root mean square error) and specific, assaying purified granulocytes from blood samples that no longer required immediate preparation and therefore allowing for up to 30 h before processing. There was a nearly a 2-fold increase in the therapeutic target (1.9 nmol half-cystine/mg protein) range, established using distributions of patient, obligate heterozygote, and control samples. The 2.5-97.5 percentile ranges (-2 SD to +2 SD around mean) for these cohorts were 0.67-6.05 nmol/mg protein for patients, 0.33-1.35 nmol/mg protein for obligate heterozygotes, and 0.09-0.35 nmol/mg protein for controls.

CONCLUSIONS

The intracellular cystine determination method using immunopurified granulocytes followed by LC-MS/MS analysis improves the inherent variability of mixed leukocyte analysis and eliminates the need for immediate sample preparation following blood draw.

摘要

背景

胱氨酸测定是诊断和治疗监测溶酶体贮积病胱氨酸病的关键生化检验。经典的混合白细胞胱氨酸测定需要在采血后立即进行专门的回收/分离,提供从各种类型的白细胞中归一化到总蛋白的胱氨酸浓度,每个白细胞的胱氨酸含量不同。

方法

我们提出了一种使用免疫磁珠粒细胞纯化进行胱氨酸测定的新工作流程,并从 47 名患者和 27 名强制性杂合子样本中建立了新的参考范围。样本收集在柠檬酸葡萄糖抗凝管中,证明其稳定性允许在分析前过夜运输。通过 LC-MS/MS 定量胱氨酸。

结果

新方法具有可重复性(<15%均方根误差)和特异性,可从血液样本中测定纯化的粒细胞,这些样本不再需要立即准备,因此允许在处理前最多 30 小时。治疗目标(1.9 毫摩尔半胱氨酸/毫克蛋白)范围几乎增加了一倍,该范围是使用患者、强制性杂合子和对照样本的分布建立的。这些队列的 2.5-97.5 百分位范围(均值周围-2 SD 到+2 SD)为 0.67-6.05 毫摩尔/毫克蛋白患者,0.33-1.35 毫摩尔/毫克蛋白强制性杂合子,0.09-0.35 毫摩尔/毫克蛋白对照。

结论

使用免疫纯化的粒细胞进行细胞内胱氨酸测定,然后进行 LC-MS/MS 分析,提高了混合白细胞分析的固有变异性,并消除了采血后立即进行样本准备的需要。

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