Liang Winnie S, Dardis Christopher, Helland Adrienne, Sekar Shobana, Adkins Jonathan, Cuyugan Lori, Enriquez Daniel, Byron Sara, Little Andrew S
Integrated Cancer Genomics Division, Translational Genomics Research Institute, Phoenix, Arizona 85004, USA.
Division of Neurology, Barrow Neurological Institute, St. Joseph's Hospital and Medical Center, Phoenix, Arizona 85013, USA.
Cold Spring Harb Mol Case Stud. 2018 Dec 17;4(6). doi: 10.1101/mcs.a003418. Print 2018 Dec.
Chordoma is a rare, orphan cancer arising from embryonal precursors of bone. Surgery and radiotherapy (RT) provide excellent local control, often at the price of significant morbidity because of the structures involved and the need for relatively high doses of RT; however, recurrence remains high. Although our understanding of the genetic changes that occur in chordoma is evolving rapidly, this knowledge has yet to translate into treatments. We performed comprehensive DNA (paired tumor/normal whole-exome and shallow whole-genome) and RNA (tumor whole-transcriptome) next-generation sequencing analyses of archival sacral and clivus chordoma specimens. Incorporation of transcriptomic data enabled the identification of gene overexpression and expressed DNA alterations, thus providing additional support for potential therapeutic targets. In three patients, we identified alterations that may be amenable to off-label FDA-approved treatments for other tumor types. These alterations include overexpression (ponatinib, pazopanib) and copy-number duplication of (palbociclib) and (gefitinib). In a third patient, germline DNA demonstrated predicted pathogenic changes in and , which may have predisposed the patient to developing chordoma at a young age and may also be associated with potential sensitivity to PARP inhibitors because of homologous recombination repair deficiency. Last, in the fourth patient, a missense mutation in was identified, suggesting potential activity for investigational anti-IGF1R strategies. Our findings demonstrate that chordoma patients present with aberrations in overlapping pathways. These results provide support for targeting the IGF1R/FGFR/EGFR and CDK4/6 pathways as treatment strategies for chordoma patients. This study underscores the value of comprehensive genomic and transcriptomic analysis in the development of rational, individualized treatment plans for chordoma.
脊索瘤是一种罕见的、源自骨胚胎前体的罕见癌症。手术和放疗(RT)能实现良好的局部控制,但由于涉及的结构以及需要相对高剂量的放疗,往往会导致严重的并发症;然而,复发率仍然很高。尽管我们对脊索瘤中发生的基因变化的理解正在迅速发展,但这些知识尚未转化为治疗方法。我们对存档的骶骨和斜坡脊索瘤标本进行了全面的DNA(配对肿瘤/正常全外显子组和浅层全基因组)和RNA(肿瘤全转录组)下一代测序分析。整合转录组数据能够识别基因过表达和表达的DNA改变,从而为潜在的治疗靶点提供额外支持。在三名患者中,我们发现了一些改变,这些改变可能适用于美国食品药品监督管理局(FDA)批准的针对其他肿瘤类型的非标签治疗。这些改变包括过表达(波纳替尼、帕唑帕尼)以及(帕博西尼)和(吉非替尼)的拷贝数重复。在第三名患者中,种系DNA显示在和中有预测的致病变化,这可能使患者在年轻时易患脊索瘤,并且由于同源重组修复缺陷,也可能与对聚ADP核糖聚合酶(PARP)抑制剂的潜在敏感性有关。最后,在第四名患者中,发现了中的一个错义突变,提示研究性抗胰岛素样生长因子1受体(IGF1R)策略可能具有活性。我们的研究结果表明,脊索瘤患者存在重叠通路中的畸变。这些结果为将IGF1R/成纤维细胞生长因子受体(FGFR)/表皮生长因子受体(EGFR)和细胞周期蛋白依赖性激酶4/6(CDK4/6)通路作为脊索瘤患者的治疗策略提供了支持。这项研究强调了全面的基因组和转录组分析在制定合理、个性化的脊索瘤治疗方案中的价值。
