Clinical Cooperation Unit Neuropathology (G380), German Cancer Research Center (DKFZ), Im Neuenheimer Feld 280, 69120, Heidelberg, Germany.
Department of Neuropathology, Heidelberg University Hospital, Im Neuenheimer Feld 224, 69120, Heidelberg, Germany.
Acta Neuropathol. 2017 Sep;134(3):507-516. doi: 10.1007/s00401-017-1710-1. Epub 2017 Apr 11.
Pediatric glioblastoma (pedGBM) is an extremely aggressive pediatric brain tumor, accounting for ~6% of all central nervous system neoplasms in children. Approximately half of pedGBM harbor recurrent somatic mutations in histone 3 variants or, infrequently, IDH1/2. The remaining subset of pedGBM is highly heterogeneous, and displays a variety of genomic and epigenetic features. In the current study, we aimed to further stratify an H3-/IDH-wild type (wt) pedGBM cohort assessed through genome-wide molecular profiling. As a result, we identified three molecular subtypes of these tumors, differing in their genomic and epigenetic signatures as well as in their clinical behavior. We designated these subtypes 'pedGBM_MYCN' (enriched for MYCN amplification), 'pedGBM_RTK1' (enriched for PDGFRA amplification) and 'pedGBM_RTK2' (enriched for EGFR amplification). These molecular subtypes were associated with significantly different outcomes, i.e. pedGBM_RTK2 tumors show a significantly longer survival time (median OS 44 months), pedGBM_MYCN display extremely poor outcomes (median OS 14 months), and pedGBM_RTK1 tumors harbor an intermediate prognosis. In addition, the various molecular subtypes of H3-/IDH-wt pedGBM were clearly distinguishable from their adult counterparts, underlining their biological distinctiveness. In conclusion, our study demonstrates significant molecular heterogeneity of H3-/IDH-wt pedGBM in terms of DNA methylation and cytogenetic alterations. The recognition of three molecular subtypes of H3-/IDH-wt pedGBM further revealed close correlations with biological parameters and clinical outcomes and may therefore, be predictive of response to standard treatment protocols, but could also be useful for stratification for novel, molecularly based therapies.
小儿脑胶质瘤(pedGBM)是一种极具侵袭性的小儿脑肿瘤,约占儿童中枢神经系统肿瘤的 6%。约一半的 pedGBM 存在组蛋白 3 变体的复发性体细胞突变,或罕见的 IDH1/2。其余的 pedGBM 亚组高度异质,表现出多种基因组和表观遗传特征。在本研究中,我们旨在通过全基因组分子谱分析进一步对 H3-/IDH-野生型(wt)pedGBM 队列进行分层。结果,我们鉴定了这些肿瘤的三种分子亚型,它们在基因组和表观遗传特征以及临床行为上存在差异。我们将这些亚型命名为“pedGBM_MYCN”(富含 MYCN 扩增)、“pedGBM_RTK1”(富含 PDGFRA 扩增)和“pedGBM_RTK2”(富含 EGFR 扩增)。这些分子亚型与明显不同的结果相关,即 pedGBM_RTK2 肿瘤的生存时间明显延长(中位 OS 44 个月),pedGBM_MYCN 显示出极差的结果(中位 OS 14 个月),而 pedGBM_RTK1 肿瘤具有中等预后。此外,H3-/IDH-wt pedGBM 的各种分子亚型与成人亚型明显不同,突出了它们的生物学独特性。总之,我们的研究表明,H3-/IDH-wt pedGBM 在 DNA 甲基化和细胞遗传学改变方面存在显著的分子异质性。识别 H3-/IDH-wt pedGBM 的三种分子亚型进一步揭示了与生物学参数和临床结果的密切相关性,因此可能预测对标准治疗方案的反应,也可能有助于分层进行新的基于分子的治疗。
