对 FFPE 肿瘤组织进行全面的常规诊断筛查，以识别预测性突变、基因扩增和微卫星不稳定性。

Comprehensive routine diagnostic screening to identify predictive mutations, gene amplifications, and microsatellite instability in FFPE tumor material.

机构信息

Department of Pathology, Radboud university medical center, PO Box 9101, 6500, HB, Nijmegen, the Netherlands.

Department of Pathology, Princess Máxima Center for Pediatric Oncology, Utrecht, The Netherlands.

出版信息

BMC Cancer. 2020 Apr 7;20(1):291. doi: 10.1186/s12885-020-06785-6.

DOI:10.1186/s12885-020-06785-6

PMID:32264863

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7137451/

Abstract

BACKGROUND

Sensitive and reliable molecular diagnostics is needed to guide therapeutic decisions for cancer patients. Although less material becomes available for testing, genetic markers are rapidly expanding. Simultaneous detection of predictive markers, including mutations, gene amplifications and MSI, will save valuable material, time and costs.

METHODS

Using a single-molecule molecular inversion probe (smMIP)-based targeted next-generation sequencing (NGS) approach, we developed an NGS panel allowing detection of predictive mutations in 33 genes, gene amplifications of 13 genes and microsatellite instability (MSI) by the evaluation of 55 microsatellite markers. The panel was designed to target all clinically relevant single and multiple nucleotide mutations in routinely available lung cancer, colorectal cancer, melanoma, and gastro-intestinal stromal tumor samples, but is useful for a broader set of tumor types.

RESULTS

The smMIP-based NGS panel was successfully validated and cut-off values were established for reliable gene amplification analysis (i.e. relative coverage ≥3) and MSI detection (≥30% unstable loci). After validation, 728 routine diagnostic tumor samples including a broad range of tumor types were sequenced with sufficient sensitivity (2.4% drop-out), including samples with low DNA input (< 10 ng; 88% successful), low tumor purity (5-10%; 77% successful), and cytological material (90% successful). 75% of these tumor samples showed ≥1 (likely) pathogenic mutation, including targetable mutations (e.g. EGFR, BRAF, MET, ERBB2, KIT, PDGFRA). Amplifications were observed in 5.5% of the samples, comprising clinically relevant amplifications (e.g. MET, ERBB2, FGFR1). 1.5% of the tumor samples were classified as MSI-high, including both MSI-prone and non-MSI-prone tumors.

CONCLUSIONS

We developed a comprehensive workflow for predictive analysis of diagnostic tumor samples. The smMIP-based NGS analysis was shown suitable for limited amounts of histological and cytological material. As smMIP technology allows easy adaptation of panels, this approach can comply with the rapidly expanding molecular markers.

摘要

背景

为了指导癌症患者的治疗决策，需要进行敏感且可靠的分子诊断。尽管可供检测的样本量减少，但基因标志物的数量却在迅速增加。同时检测预测性标志物，包括突变、基因扩增和微卫星不稳定性（MSI），将节省有价值的样本、时间和成本。

方法

我们使用基于单分子分子反转探针（smMIP）的靶向下一代测序（NGS）方法，开发了一个 NGS 面板，通过评估 55 个微卫星标记物，可检测 33 个基因的预测性突变、13 个基因的基因扩增和 MSI。该面板旨在针对所有临床上相关的单核苷酸和多核苷酸突变进行设计，可用于常规肺癌、结直肠癌、黑色素瘤和胃肠间质瘤样本，但也可用于更广泛的肿瘤类型。

结果

该 smMIP 基 NGS 面板成功验证，并为可靠的基因扩增分析（即相对覆盖度≥3）和 MSI 检测（≥30%不稳定位点）建立了截止值。验证后，对包括广泛肿瘤类型在内的 728 例常规诊断肿瘤样本进行测序，具有足够的灵敏度（2.4%的缺失率），包括 DNA 输入量低（<10ng；88%成功）、肿瘤纯度低（5-10%；77%成功）和细胞学样本（90%成功）。这些肿瘤样本中有 75%显示≥1 个（可能）致病性突变，包括可靶向的突变（如 EGFR、BRAF、MET、ERBB2、KIT、PDGFRA）。在 5.5%的样本中观察到扩增，包括临床相关的扩增（如 MET、ERBB2、FGFR1）。1.5%的肿瘤样本被归类为 MSI 高，包括 MSI 倾向和非 MSI 倾向的肿瘤。

结论

我们开发了一种用于预测分析诊断性肿瘤样本的综合工作流程。基于 smMIP 的 NGS 分析适用于有限量的组织学和细胞学样本。由于 smMIP 技术允许对面板进行轻松的调整，因此该方法可以适应快速扩展的分子标志物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/21c8/7137451/39ab7256d246/12885_2020_6785_Fig1_HTML.jpg

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对 FFPE 肿瘤组织进行全面的常规诊断筛查，以识别预测性突变、基因扩增和微卫星不稳定性。

Comprehensive routine diagnostic screening to identify predictive mutations, gene amplifications, and microsatellite instability in FFPE tumor material.

机构信息

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