肉瘤患者的下一代测序:单中心经验。
Next-Generation Sequencing for Patients with Sarcoma: A Single Center Experience.
机构信息
Center for Sarcoma and Connective Tissue Oncology, Massachusetts General Hospital, Boston, Massachusetts, USA
Foundation Medicine Inc, Cambridge, Massachusetts, USA.
出版信息
Oncologist. 2018 Feb;23(2):234-242. doi: 10.1634/theoncologist.2017-0290. Epub 2017 Aug 31.
BACKGROUND
Sarcomas comprise over 50 subtypes of mesenchymal cancers. For the majority of sarcomas, the driver mutations remain unknown. In this article, we describe our experience with a targeted next-generation sequencing (NGS) platform in clinic patients.
MATERIALS AND METHODS
We retrospectively analyzed results of NGS using 133 tumor samples from patients diagnosed with a variety of sarcomas that were analyzed with targeted NGS covering over 400 cancer-related genes (405 DNA, 265 RNA) on a commercially available platform.
RESULTS
An average of two gene alterations were identified per tumor sample (range 0-14), and a total of 342 DNA mutations were detected. Eight-eight percent of samples had at least one detected mutation. The most common mutations were in the cell cycle, including TP53 ( = 35), CDKN2A/B ( = 23), and RB1 ( = 19). Twenty-seven PI3-kinase pathway alterations were observed, including PTEN ( = 14), PIK3Ca ( = 4), TSC1 ( = 1), TSC2 ( = 3), STK11 ( = 1), mTOR ( = 3), and RICTOR ( = 2). There were 75 mutations in genes that are targetable with existing drugs (excluding KIT in gastrointestinal stromal tumor) that would allow enrollment onto clinical trials. In general, the estimated tumor mutation burden was low, in particular for those with disease-defining gene fusions or genetic alterations. Microsatellite instability (MSI) data were available for 50 patients, and all were MSI stable.
CONCLUSION
Our study describes a single-center experience with targeted NGS for patients with sarcoma. Mutations were readily detected and 75 (representing 40% of patients) were testable for therapeutic effect using existing drugs within the confines of a clinical trial. These data indicate that targeted NGS is a useful tool in potentially routing patients to mutation-specific clinical trials. Further study will be required to determine if these mutations are clinically meaningful drug targets in sarcoma.
IMPLICATIONS FOR PRACTICE
The sarcomas are a heterogenous family of over 50 different mesenchymal tumors. Current practice for metastatic disease involves systemic chemotherapy or nonspecific kinase inhibitors such as pazopanib. Sarcomas typically lack the classic kinase alterations seen in many carcinomas. The role of next-generation sequencing in sarcoma clinical practice remains undefined.
背景
肉瘤包含超过 50 种间充质癌症亚型。对于大多数肉瘤来说,驱动突变仍然未知。在本文中,我们描述了我们在临床患者中使用靶向下一代测序(NGS)平台的经验。
材料与方法
我们回顾性分析了使用针对涵盖 400 多个癌症相关基因(405 个 DNA,265 个 RNA)的靶向 NGS 分析的 133 个肿瘤样本的 NGS 结果,这些样本来自诊断为各种肉瘤的患者。
结果
平均每个肿瘤样本鉴定出两个基因改变(范围 0-14),总共检测到 342 个 DNA 突变。88%的样本至少有一个检测到的突变。最常见的突变发生在细胞周期中,包括 TP53( = 35)、CDKN2A/B( = 23)和 RB1( = 19)。观察到 27 个 PI3-激酶途径改变,包括 PTEN( = 14)、PIK3Ca( = 4)、TSC1( = 1)、TSC2( = 3)、STK11( = 1)、mTOR( = 3)和 RICTOR( = 2)。有 75 个突变存在于现有药物(不包括胃肠道间质瘤中的 KIT)可靶向的基因中,这将允许入组临床试验。一般来说,肿瘤突变负担估计较低,特别是对于那些具有疾病定义性基因融合或遗传改变的患者。50 名患者有微卫星不稳定性(MSI)数据,均为 MSI 稳定。
结论
我们的研究描述了针对肉瘤患者进行靶向 NGS 的单中心经验。突变很容易被检测到,75 个(代表 40%的患者)可以使用现有药物进行治疗效果测试,这些药物在临床试验范围内。这些数据表明,靶向 NGS 是一种有用的工具,可以帮助患者找到针对特定突变的临床试验。需要进一步研究来确定这些突变是否是肉瘤中有临床意义的药物靶点。
启示
肉瘤是一组超过 50 种不同间充质肿瘤的异质性家族。转移性疾病的现行治疗方法包括全身化疗或非特异性激酶抑制剂,如帕唑帕尼。肉瘤通常缺乏许多癌中常见的经典激酶改变。下一代测序在肉瘤临床实践中的作用仍未确定。
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