A multiplexed, allele-specific recombinase polymerase amplification assay with lateral flow readout for sickle cell disease detection†

IF 6.1 2区 工程技术 Q1 BIOCHEMICAL RESEARCH METHODS
Lab on a Chip Pub Date : 2024-07-25 DOI:10.1039/D4LC00281D
Megan M. Chang, Mary E. Natoli, Alexis F. Wilkinson, Venée N. Tubman, Gladstone E. Airewele and Rebecca R. Richards-Kortum
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Abstract

Isothermal nucleic acid amplification tests have the potential to improve disease diagnosis at the point of care, but it remains challenging to develop multiplexed tests that can detect ≥3 targets or to detect point mutations that may cause disease. These capabilities are critical to enabling informed clinical decision-making for many applications, such as sickle cell disease (SCD). To address this, we describe the development of a multiplexed allele-specific recombinase polymerase amplification (RPA) assay with lateral flow readout. We first characterize the specificity of RPA using primer design strategies employed in PCR to achieve point mutation detection, and demonstrate the utility of these strategies in achieving selective isothermal amplification and detection of genomic DNA encoding for the healthy βA globin allele, or genomic DNA containing point mutations encoding for pathologic βS and βC globin alleles, which are responsible for most sickle cell disorders. We then optimize reaction conditions to achieve multiplexed amplification and identification of the three alleles in a single reaction. Finally, we perform a small pilot study with 20 extracted genomic DNA samples from SCD patients and healthy volunteers – of the 13 samples with valid results, the assay demonstrated 100% sensitivity and 100% specificity for detecting pathologic alleles, and an overall accuracy of 92.3% for genotype prediction. This multiplexed assay is rapid, minimally instrumented, and when combined with point-of-care sample preparation, could enable DNA-based diagnosis of SCD in low-resource settings. The strategies reported here could be applied to other challenges, such as detection of mutations that confer drug resistance.

Abstract Image

Abstract Image

用于镰状细胞病检测的多路复用等位基因特异性重组酶聚合酶扩增测定,具有侧向流读数功能
等温核酸扩增检验具有改善医疗点疾病诊断的潜力,但开发能检测≥3个靶点或检测可能致病的点突变的多重检验仍具有挑战性。这些能力对于镰状细胞病(SCD)等许多应用的临床决策至关重要。为了解决这个问题,我们介绍了一种具有侧向流读数的多重等位基因特异性重组酶聚合酶扩增(RPA)检测方法的开发情况。我们首先利用 PCR 中用于实现点突变检测的引物设计策略描述了 RPA 的特异性,并展示了这些策略在实现选择性等温扩增和检测编码健康 βA 球蛋白等位基因的基因组 DNA 或含有编码病态 βS 和 βC 球蛋白等位基因的点突变的基因组 DNA 方面的实用性,而病态 βS 和 βC 球蛋白等位基因是大多数镰状细胞疾病的罪魁祸首。然后,我们对反应条件进行了优化,以实现在一次反应中对三种等位基因进行多重扩增和鉴定。最后,我们用 20 份从 SCD 患者和健康志愿者身上提取的基因组 DNA 样本进行了一项小型试验研究--在 13 份结果有效的样本中,检测病理等位基因的灵敏度和特异性分别达到 100%和 100%,基因型预测的总体准确率为 92.3%。这种多重化验速度快、仪器设备少,如果与床旁样本制备相结合,就能在资源匮乏的环境中实现基于 DNA 的 SCD 诊断。本文报告的策略还可应用于其他挑战,如检测产生耐药性的突变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Lab on a Chip
Lab on a Chip 工程技术-化学综合
CiteScore
11.10
自引率
8.20%
发文量
434
审稿时长
2.6 months
期刊介绍: Lab on a Chip is the premiere journal that publishes cutting-edge research in the field of miniaturization. By their very nature, microfluidic/nanofluidic/miniaturized systems are at the intersection of disciplines, spanning fundamental research to high-end application, which is reflected by the broad readership of the journal. Lab on a Chip publishes two types of papers on original research: full-length research papers and communications. Papers should demonstrate innovations, which can come from technical advancements or applications addressing pressing needs in globally important areas. The journal also publishes Comments, Reviews, and Perspectives.
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