全基因组测序、计算机模拟全外显子组和突变面板检测癌症基因组中可操作事件的比较。

Comparison of actionable events detected in cancer genomes by whole-genome sequencing, in silico whole-exome and mutation panels.

机构信息

Cancer Program, QIMR Berghofer Medical Research Institute, Brisbane, Australia; Australian e-Health Research Centre, Commonwealth Scientific and Industrial Research Organisation, Brisbane, Australia.

Cancer Program, QIMR Berghofer Medical Research Institute, Brisbane, Australia.

出版信息

ESMO Open. 2022 Aug;7(4):100540. doi: 10.1016/j.esmoop.2022.100540. Epub 2022 Jul 15.

DOI:10.1016/j.esmoop.2022.100540

PMID:35849877

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9463385/

Abstract

BACKGROUND

Next-generation sequencing is used in cancer research to identify somatic and germline mutations, which can predict sensitivity or resistance to therapies, and may be a useful tool to reveal drug repurposing opportunities between tumour types. Multigene panels are used in clinical practice for detecting targetable mutations. However, the value of clinical whole-exome sequencing (WES) and whole-genome sequencing (WGS) for cancer care is less defined, specifically as the majority of variants found using these technologies are of uncertain significance.

PATIENTS AND METHODS

We used the Cancer Genome Interpreter and WGS in 726 tumours spanning 10 cancer types to identify drug repurposing opportunities. We compare the ability of WGS to detect actionable variants, tumour mutation burden (TMB) and microsatellite instability (MSI) by using in silico down-sampled data to mimic WES, a comprehensive sequencing panel and a hotspot mutation panel.

RESULTS

We reveal drug repurposing opportunities as numerous biomarkers are shared across many solid tumour types. Comprehensive panels identify the majority of approved actionable mutations, with WGS detecting more candidate actionable mutations for biomarkers currently in clinical trials. Moreover, estimated values for TMB and MSI vary when calculated from WGS, WES and panel data, and are dependent on whether all mutations or only non-synonymous mutations were used. Our results suggest that TMB and MSI thresholds should not only be tumour-dependent, but also be sequencing platform-dependent.

CONCLUSIONS

There is a large opportunity to repurpose cancer drugs, and these data suggest that comprehensive sequencing is an invaluable source of information to guide clinical decisions by facilitating precision medicine and may provide a wealth of information for future studies. Furthermore, the sequencing and analysis approach used to estimate TMB may have clinical implications if a hard threshold is used to indicate which patients may respond to immunotherapy.

摘要

背景

下一代测序技术在癌症研究中用于识别体细胞和种系突变，这些突变可以预测对治疗的敏感性或耐药性，并且可能是揭示肿瘤类型之间药物再利用机会的有用工具。多基因panel 用于临床检测可靶向突变。然而，临床全外显子组测序（WES）和全基因组测序（WGS）在癌症治疗中的价值定义不明确，特别是因为使用这些技术发现的大多数变体具有不确定的意义。

患者和方法

我们使用癌症基因组解释器和 WGS 在 10 种癌症类型的 726 个肿瘤中鉴定药物再利用机会。我们使用模拟 WES、综合测序 panel 和热点突变 panel 的计算机下采样数据来比较 WGS 检测可操作变异、肿瘤突变负荷（TMB）和微卫星不稳定性（MSI）的能力。

结果

我们揭示了许多固体肿瘤类型共享的药物再利用机会。综合 panel 识别出大多数批准的可操作突变，而 WGS 检测到更多目前处于临床试验阶段的候选可操作突变的生物标志物。此外，从 WGS、WES 和 panel 数据计算得出的 TMB 和 MSI 的估计值因计算时使用的是所有突变还是仅非同义突变而有所不同。我们的结果表明，TMB 和 MSI 阈值不仅应取决于肿瘤，还应取决于测序平台。

结论

有很大的机会重新利用癌症药物，这些数据表明，综合测序是指导临床决策的宝贵信息来源，通过促进精准医学，为未来的研究提供丰富的信息。此外，如果使用硬性阈值来指示哪些患者可能对免疫疗法有反应，那么用于估计 TMB 的测序和分析方法可能具有临床意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/01d7/9463385/81582cacb34d/gr1.jpg

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全基因组测序、计算机模拟全外显子组和突变面板检测癌症基因组中可操作事件的比较。

Comparison of actionable events detected in cancer genomes by whole-genome sequencing, in silico whole-exome and mutation panels.

机构信息

出版信息

BACKGROUND

PATIENTS AND METHODS

RESULTS

CONCLUSIONS

背景

患者和方法

结果

结论

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