Abstract
Intratumour heterogeneity is a major cause of treatment failure in cancer. We present in-depth analyses combining transcriptomic and genomic profiling with ultra-deep targeted sequencing of multiregional biopsies in 10 patients with neuroblastoma, a devastating childhood tumour. We observe high spatial and temporal heterogeneity in somatic mutations and somatic copy-number alterations which are reflected on the transcriptomic level. Mutations in some druggable target genes including ALK and FGFR1 are heterogeneous at diagnosis and/or relapse, raising the issue whether current target prioritization and molecular risk stratification procedures in single biopsies are sufficiently reliable for therapy decisions. The genetic heterogeneity in gene mutations and chromosome aberrations observed in deep analyses from patient courses suggest clonal evolution before treatment and under treatment pressure, and support early emergence of metastatic clones and ongoing chromosomal instability during disease evolution. We report continuous clonal evolution on mutational and copy number levels in neuroblastoma, and detail its implications for therapy selection, risk stratification and therapy resistance.
Highlights
We describe spatial and temporal intratumour heterogeneity of actionable mutations and distinct patterns of tumour evolution based on single-nucleotide variant (SNV) and somatic copy-number alterations (SCNA)
SNVs and SCNAs were called from Whole-exome sequencing (WES) data
To investigate the degree of ongoing chromosomal instability in neuroblastoma, allele-specific SCNAs were called from WES data for all 51 samples from the 10 patients
Summary
Secondary resistance following promising short-term efficacy is clinically observed in particular for activating ALK mutations, the most recurrent actionable single-nucleotide variant (SNV) present in neuroblastoma for which targeted inhibitors of 1st, 2nd and 3rd generation have entered clinical trials[9,10,11,12]. These clinical observations indicate the existence of therapyresistant subclones in high-risk neuroblastoma.
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