Department of Medicine I (Hematology, Oncology and Stem Cell Transplantation), Freiburg University Medical Center, Freiburg, Germany; German Cancer Consortium (DKTK) partner site Freiburg, Heidelberg, Germany.
Department of Medicine I (Hematology, Oncology and Stem Cell Transplantation), Freiburg University Medical Center, Freiburg, Germany.
J Mol Diagn. 2020 Jul;22(7):943-956. doi: 10.1016/j.jmoldx.2020.04.206. Epub 2020 May 4.
Detection and quantification of tumor-derived KRAS and NRAS mutations in plasma cell-free DNA (cfDNA) holds great potential for cancer diagnostics and treatment response monitoring. Because of high sensitivity, specificity, robustness, and affordability, digital droplet PCR (ddPCR) is ideally suited for this application but requires discriminatory multiplexing when used as screening assay. We therefore designed, optimized, and clinically validated mutation-specific locked nucleic acid-based ddPCR assays for 14 commonly occurring KRAS and NRAS mutations and assembled these assays into seven discriminatory multitarget screening assays covering two to six single-nucleotide variants each. Limit of detection, limit of blank, and interassay accuracy were determined. Assay performance and suitability for screening in cfDNA were validated with plasma samples from a clinically fully characterized cohort of pancreatic cancer patients and healthy controls. Limits of detection for single-target assays were between 0.0015% and 0.069% variant allele fraction, and between 0.022% and 0.16% for multitarget assays. Dilution linearity and interassay accuracy were excellent throughout (r > 0.99). Multitarget assay screening of cfDNA extracted from pancreatic cancer patients with unknown KRAS mutational status correctly identified single-nucleotide variants in 45 of 45 (100%) of tumor-derived cell-free DNA-positive samples. In summary, we herein present and clinically validate generic single-target and discriminatory multitarget ddPCR assays for KRAS and NRAS hot spot mutations with broad applicability for clinical and translational research.
检测和量化肿瘤衍生的 KRAS 和 NRAS 突变的血浆无细胞 DNA(cfDNA)在癌症诊断和治疗反应监测方面具有很大的潜力。由于具有高灵敏度、特异性、稳健性和可负担性,数字液滴 PCR(ddPCR)非常适合这种应用,但作为筛选试验时需要具有区分力的多重化。因此,我们设计、优化并临床验证了基于突变特异性锁核酸的 ddPCR 检测用于 14 种常见的 KRAS 和 NRAS 突变,并将这些检测组装成七个具有区分力的多靶标筛选检测,每个检测涵盖两到六个单核苷酸变体。确定了检测的检测限、空白限和批间准确性。通过来自临床充分特征化的胰腺癌患者和健康对照者的血浆样本验证了检测的性能和在 cfDNA 中进行筛选的适用性。单靶标检测的检测限在 0.0015%到 0.069%变异等位基因分数之间,而多靶标检测在 0.022%到 0.16%之间。稀释线性度和批间准确性均非常出色(r > 0.99)。对未知 KRAS 突变状态的胰腺癌患者 cfDNA 进行的多靶标检测筛选正确地在 45 个肿瘤衍生的无细胞 DNA 阳性样本中的 45 个(100%)中识别出单核苷酸变体。总之,我们在此介绍并临床验证了用于 KRAS 和 NRAS 热点突变的通用单靶标和具有广泛临床和转化研究适用性的区分力多靶标 ddPCR 检测。
