Diffuse Glioneuronal tumour with Oligodendroglioma‐like features and Nuclear Clusters (DGONC) – a molecularly‐defined glioneuronal CNS tumour class displaying recurrent monosomy 14

authors

  • Deng Maximilian
  • Sill Martin
  • Sturm Dominik
  • Stichel Damian
  • Witt Hendrik
  • Ecker Jonas
  • Wittmann Andreas
  • Schittenhelm Jens
  • Ebinger Martin
  • Schuhmann Martin
  • Figarella‑branger Dominique
  • Aronica Eleonora
  • Staszewski Ori
  • Preusser Matthias
  • Haberler Christine
  • Lauten Melchior
  • Schüller Ulrich
  • Hartmann Christian
  • Snuderl Matija
  • Dunham Christopher
  • Jabado Nada
  • Wesseling Pieter
  • Deckert Martina
  • Keyvani Kathy
  • Gottardo Nick
  • Giangaspero Felice
  • von Hoff Katja
  • Ellison David
  • Pietsch Torsten T
  • Herold Mende Christel
  • Milde Till
  • Witt Olaf
  • Kool Marcel
  • Korshunov Andrey
  • Wick Wolfgang
  • von Deimling Andreas
  • Pfister Stefan
  • Jones David T.W.
  • Sahm Felix

document type

ART

abstract

Aims DNA methylation-based central nervous system (CNS) tumour classification has identified numerous molecularly distinct tumour types, and clinically relevant subgroups among known CNS tumour entities that were previously thought to represent homogeneous diseases. Our study aimed at characterizing a novel, molecularly defined variant of glioneuronal CNS tumour. Patients and methods DNA methylation profiling was performed using the Infinium MethylationEPIC or 450 k BeadChip arrays (Illumina) and analysed using the ‘conumee’ package in R computing environment. Additional gene panel sequencing was also performed. Tumour samples were collected at the German Cancer Research Centre (DKFZ) and provided by multinational collaborators. Histological sections were also collected and independently reviewed. Results Genome-wide DNA methylation data from >25 000 CNS tumours were screened for clusters separated from established DNA methylation classes, revealing a novel group comprising 31 tumours, mainly found in paediatric patients. This DNA methylation-defined variant of low-grade CNS tumours with glioneuronal differentiation displays recurrent monosomy 14, nuclear clusters within a morphology that is otherwise reminiscent of oligodendroglioma and other established entities with clear cell histology, and a lack of genetic alterations commonly observed in other (paediatric) glioneuronal entities. Conclusions DNA methylation-based tumour classification is an objective method of assessing tumour origins, which may aid in diagnosis, especially for atypical cases. With increasing sample size, methylation analysis allows for the identification of rare, putative new tumour entities, which are currently not recognized by the WHO classification. Our study revealed the existence of a DNA methylation-defined class of low-grade glioneuronal tumours with recurrent monosomy 14, oligodendroglioma-like features and nuclear clusters.

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