临床靶向外显子组测序与全基因组拷贝数分析相结合:203 例小儿脑肿瘤精准医学分析。
Clinical targeted exome-based sequencing in combination with genome-wide copy number profiling: precision medicine analysis of 203 pediatric brain tumors.
机构信息
Dana-Farber/Boston Children's Cancer and Blood Disorders Center, Department of Pathology, Department of Radiology, Department of Neurosurgery, Boston Children's Hospital, Boston, Massachusetts; Department of Medical Oncology, Oncologic Pathology, Department of Pediatric Oncology, Department of Cancer Biology, Center for Cancer Genome Discovery, Dana-Farber Cancer Institute, Boston, Massachusetts; Department of Pathology, Department of Neurosurgery, Department of Medicine, Brigham and Women's Hospital, Boston, Massachusetts; Pratiti Bandopadhayay, Broad Institute of MIT and Harvard, Boston, Massachusetts; Harvard Medical School, Boston, Massachusetts.
出版信息
Neuro Oncol. 2017 Jul 1;19(7):986-996. doi: 10.1093/neuonc/now294.
BACKGROUND
Clinical genomics platforms are needed to identify targetable alterations, but implementation of these technologies and best practices in routine clinical pediatric oncology practice are not yet well established.
METHODS
Profile is an institution-wide prospective clinical research initiative that uses targeted sequencing to identify targetable alterations in tumors. OncoPanel, a multiplexed targeted exome-sequencing platform that includes 300 cancer-causing genes, was used to assess single nucleotide variants and rearrangements/indels. Alterations were annotated (Tiers 1-4) based on clinical significance, with Tier 1 alterations having well-established clinical utility. OncoCopy, a clinical genome-wide array comparative genomic hybridization (aCGH) assay, was also performed to evaluate copy number alterations and better define rearrangement breakpoints.
RESULTS
Cancer genomes of 203 pediatric brain tumors were profiled across histological subtypes, including 117 samples analyzed by OncoPanel, 146 by OncoCopy, and 60 tumors subjected to both methodologies. OncoPanel revealed clinically relevant alterations in 56% of patients (44 cancer mutations and 20 rearrangements), including BRAF alterations that directed the use of targeted inhibitors. Rearrangements in MYB-QKI, MYBL1, BRAF, and FGFR1 were also detected. Furthermore, while copy number profiles differed across histologies, the combined use of OncoPanel and OncoCopy identified subgroup-specific alterations in 89% (17/19) of medulloblastomas.
CONCLUSION
The combination of OncoPanel and OncoCopy multiplex genomic assays can identify critical diagnostic, prognostic, and treatment-relevant alterations and represents an effective precision medicine approach for clinical evaluation of pediatric brain tumors.
背景
临床基因组学平台可用于识别可靶向的改变,但这些技术在常规临床儿科肿瘤学实践中的实施和最佳实践尚未得到很好的建立。
方法
Profile 是一项全机构的前瞻性临床研究计划,它使用靶向测序来识别肿瘤中的可靶向改变。OncoPanel 是一种多重靶向外显子测序平台,包括 300 个致癌基因,用于评估单核苷酸变体和重排/插入缺失。根据临床意义对改变进行注释(1-4 级),1 级改变具有明确的临床实用性。OncoCopy 是一种临床全基因组 array 比较基因组杂交(aCGH)检测,也用于评估拷贝数改变并更好地定义重排断点。
结果
203 例儿科脑肿瘤的癌症基因组在组织学亚型中进行了分析,包括 117 例经 OncoPanel 分析、146 例经 OncoCopy 分析和 60 例同时采用两种方法的肿瘤。OncoPanel 在 56%的患者(44 个癌症突变和 20 个重排)中发现了具有临床意义的改变,包括指导使用靶向抑制剂的 BRAF 改变。还检测到 MYB-QKI、MYBL1、BRAF 和 FGFR1 的重排。此外,尽管拷贝数谱在不同组织学中存在差异,但 OncoPanel 和 OncoCopy 的联合使用在 89%(17/19)的髓母细胞瘤中确定了亚组特异性改变。
结论
OncoPanel 和 OncoCopy 多重基因组检测的联合应用可以识别关键的诊断、预后和治疗相关改变,代表了对儿科脑肿瘤进行临床评估的有效精准医疗方法。
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