Cell Reports (Oct 2018)
Integrated Multi-omic Analysis of Esthesioneuroblastomas Identifies Two Subgroups Linked to Cell Ontogeny
Abstract
Summary: Esthesioneuroblastoma (ENB) is a rare cancer of the olfactory mucosa, with no established molecular stratification to date. We report similarities of ENB with tumors arising in the neural crest and perform integrative analysis of these tumors. We propose a molecular-based subtype classification of ENB as basal or neural, both of which have distinct pathological, transcriptomic, proteomic, and immune features. Among the basal subtype, we uncovered an IDH2 R172 mutant-enriched subgroup (∼35%) harboring a CpG island methylator phenotype reminiscent of IDH2 mutant gliomas. Compared with the basal ENB methylome, the neural ENB methylome shows genome-wide reprogramming with loss of DNA methylation at the enhancers of axonal guidance genes. Our study reveals insights into the molecular pathogenesis of ENB and provides classification information of potential therapeutic relevance. : Classe et al. report an integrative multi-omics analysis of esthesioneuroblastomas (ENBs) and identify two subgroups of ENBs: neural-like and basal-like. These subgroups are linked to cell ontogeny and are associated with distinct clinicopathological features and patient outcomes. Notably, one-third of basal ENBs harbor an IDH2 R172 mutation with a CpG island methylator phenotype. Keywords: esthesioneuroblastomas, IDH2, neural, basal, DNA methylation, sequencing, genetics, epigenetics, survival, ki67