A Fast, Affordable, and Minimally Invasive Diagnostic Test for Cancer of Unknown Primary Using DNA Methylation Profiling

IF 5.1 2区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL Laboratory Investigation Pub Date : 2024-06-01 DOI:10.1016/j.labinv.2024.102091
Jilke De Wilde , Ruben Van Paemel , Andries De Koker , Sofie Roelandt , Sofie Van de Velde , Nico Callewaert , Jo Van Dorpe , David Creytens , Bram De Wilde , Katleen De Preter
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Abstract

Currently, we cannot provide a conclusive diagnosis for 3% to 5% of people who are confronted with cancer. These patients have cancer of unknown primary (CUP), ie, a metastasized cancer for which the tissue of origin cannot be determined. Studies have shown that the DNA methylation profile is a unique “fingerprint” that can be used to classify tumors. Here we used cell-free reduced representation bisulfite sequencing (cfRRBS), a technique that allows us to identify the methylation profile starting from minimal amounts of highly fragmented DNA, for CUP diagnosis on formalin-fixed paraffin-embedded (FFPE) tissue and liquid biopsies. We collected 80 primary tumor FFPE samples covering 16 tumor entities together with 15 healthy plasma samples to use as a custom cfRRBS reference data set. Entity-specific methylation regions are defined for each entity to build a classifier based on nonnegative least squares deconvolution. This classification framework was tested on 30 FFPE, 19 plasma, and 40 pleural and peritoneal effusion samples of both known metastatic tumors and clinical CUPs for which pathological investigation finally resulted in a cancer diagnosis. Using this framework, 27 of 30 FFPE (all CUPs) and 16 of 19 plasma samples (10/13 CUPs) obtained an accurate diagnosis, with a minimal DNA input of 400 pg. Diagnosis of the 40 pleural and peritoneal effusion samples is possible in 9 of 27 samples with negative/inconclusive cytology (6/13 CUPs), showing that cell-free DNA (cfDNA) methylation profiling could complement routine cytologic analysis. However, a low “cfDNA – high-molecular weight DNA ratio” has a considerable impact on the prediction accuracy. Moreover, the accuracy improves significantly if the predicted tumor percentage is >7%. This proof-of-concept study shows the feasibility of using DNA methylation profiling on FFPE and liquid biopsy samples such as blood, ascites, and pleural effusions in a fast and affordable way. Our novel RRBS-based technique requires minimal DNA input, can be performed in <week, and is highly adaptable to specific diagnostic problems as we only use 5 FFPE references per tumor entity. We believe that cfRRBS methylation profiling could be a valuable addition to the pathologist’s toolbox in the diagnosis of CUPs.

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利用 DNA 甲基化图谱对未知原发性癌症 (CUP) 进行快速、经济、微创的诊断测试。
目前,我们无法对 3%至 5%的癌症患者做出确诊。这些患者患有原发性不明癌症(CUP),即无法确定原发组织的转移性癌症。研究表明,DNA 甲基化图谱是一种独特的 "指纹",可用来对肿瘤进行分类。在这里,我们使用 cfRRBS(无细胞还原表征亚硫酸氢盐测序)对 FFPE 组织和液体活组织切片进行 CUP 诊断。我们收集了涵盖 16 个肿瘤实体的 80 份原发性肿瘤 FFPE 样本和 15 份健康血浆样本,作为定制的 cfRRBS 参考数据集。为每个实体定义了实体特异性甲基化区域(ESRs),以建立基于非负最小二乘法(NNLS)解卷积的分类器。该分类框架在 30 份 FFPE、19 份血浆以及 40 份胸膜和腹腔积液样本上进行了测试,这些样本既有已知的转移性肿瘤,也有病理检查最终确诊为癌症的临床 CUP。利用这一框架,27/30 份 FFPE(全部为 CUP)和 16/19 份血浆样本(10/13 份为 CUP)获得了准确诊断,最低 DNA 输入量为 400 pg。在 40 份胸腔和腹腔积液样本中,9/27 份细胞学检查阴性/不确定的样本(6/13 份 CUP)可以确诊,这表明 cfDNA 甲基化分析可以作为常规细胞学分析的补充。不过,低 "cfDNA - 高分子量 DNA 比值 "对预测准确性有相当大的影响。此外,如果预测的肿瘤比例高于 7%,准确率也会显著提高。这项概念验证研究表明,在血液、腹水和胸腔积液等 FFPE 和液体活检样本上使用 DNA 甲基化图谱分析是一种快速、经济的可行方法。我们基于 RRBS 的新技术只需输入极少量的 DNA,可在一周内完成,而且由于每个肿瘤实体只需使用 5 个 FFPE 参考样本,因此可高度适应特定的诊断问题。我们相信,cfRRBS 甲基化分析可以成为病理学家诊断 CUP 的工具箱中的重要补充。
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来源期刊
Laboratory Investigation
Laboratory Investigation 医学-病理学
CiteScore
8.30
自引率
0.00%
发文量
125
审稿时长
2 months
期刊介绍: Laboratory Investigation is an international journal owned by the United States and Canadian Academy of Pathology. Laboratory Investigation offers prompt publication of high-quality original research in all biomedical disciplines relating to the understanding of human disease and the application of new methods to the diagnosis of disease. Both human and experimental studies are welcome.
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