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通过单分子分子反转探针捕获和高通量测序拷贝数缺失多态性进行嵌合体的超灵敏检测。

Ultrasensitive Detection of Chimerism by Single-Molecule Molecular Inversion Probe Capture and High-Throughput Sequencing of Copy Number Deletion Polymorphisms.

机构信息

Department of Laboratory Medicine, University of Washington, Seattle, WA.

出版信息

Clin Chem. 2018 Jun;64(6):938-949. doi: 10.1373/clinchem.2017.284737. Epub 2018 Mar 16.

DOI:10.1373/clinchem.2017.284737
PMID:29549183
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6263032/
Abstract

BACKGROUND

Genomic chimerism, the co-occurrence of cells from different genetic origins, provides important diagnostic information in diverse clinical contexts, including graft injury detection and longitudinal surveillance of hematopoietic stem cell transplantation patients, but existing assays are limiting. Here we applied single-molecule molecular inversion probes (smMIPs), a high-throughput sequencing technology combining multiplexed target capture with read quantification mediated by unique molecular identifiers, to detect chimerism based on the presence or absence of polymorphic genomic loci.

METHODS

We designed a 159-smMIP panel targeting 40 autosomal regions of frequent homozygous deletion across human populations and 2 sex-linked loci. We developed methods for detecting and quantitating loci absent from 1 cell population but present in another, which could be used to sensitively identify chimeric cell populations.

RESULTS

Unrelated individuals and first-degree relatives were highly polymorphic across the loci examined. Using synthetic DNA mixtures, limits of detection of at least 1 in 10000 chimeric cells were demonstrated without prior knowledge of genotypes, and mixtures of up to 4 separate donors could be deconvoluted. Quantitative linearity over 4 orders of magnitude and false-positive rates <1 in 85000 events were achieved. Eleven of 11 posttransplant clinical specimens from patients with hematological malignancies testing positive for residual cancer by conventional methods had detectable chimeric populations by smMIP, whereas 11 of 11 specimens testing negative by conventional methods were low-positive for chimerism by smMIP.

CONCLUSIONS

smMIPs are scalable to high sensitivity and large numbers of informative markers, enabling ultrasensitive chimerism detection for many clinical purposes.

摘要

背景

基因组嵌合体是指来自不同遗传来源的细胞同时存在,它为多种临床情况(包括移植物损伤检测和造血干细胞移植患者的纵向监测)提供了重要的诊断信息,但现有的检测方法存在局限性。在此,我们应用单分子分子反转探针(smMIPs),一种结合了多重靶标捕获和通过独特分子标识符介导的读定量的高通量测序技术,基于多态性基因组座的存在或缺失来检测嵌合体。

方法

我们设计了一个 159 个 smMIP 探针组,靶向人群中常见的 40 个常染色体高杂合缺失区域和 2 个性连锁基因座。我们开发了检测和定量从一个细胞群体中缺失但存在于另一个细胞群体中的基因座的方法,该方法可用于灵敏地识别嵌合细胞群体。

结果

在所检查的基因座上,无关个体和一级亲属具有高度多态性。使用合成 DNA 混合物,在没有先验基因型知识的情况下,检测到至少 1/10000 的嵌合细胞的检测下限,并且可以对多达 4 个单独的供体进行解卷积。实现了超过 4 个数量级的定量线性和<1/85000 事件的假阳性率。通过传统方法检测到残留癌症阳性的 11 例血液系统恶性肿瘤患者的 11 例移植后临床标本中,通过 smMIP 可检测到嵌合群体,而通过传统方法检测为阴性的 11 例标本中,smMIP 检测为嵌合的阳性率较低。

结论

smMIPs 可扩展到高灵敏度和大量有意义的标记物,可实现许多临床目的的超灵敏嵌合体检测。

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