Epigenetics (Feb 2021)

Minimally invasive classification of paediatric solid tumours using reduced representation bisulphite sequencing of cell-free DNA: a proof-of-principle study

  • Ruben Van Paemel,
  • Andries De Koker,
  • Charlotte Vandeputte,
  • Lieke van Zogchel,
  • Tim Lammens,
  • Geneviève Laureys,
  • Jo Vandesompele,
  • Gudrun Schleiermacher,
  • Mathieu Chicard,
  • Nadine Van Roy,
  • Ales Vicha,
  • G.A.M. Tytgat,
  • Nico Callewaert,
  • Katleen De Preter,
  • Bram De Wilde

DOI
https://doi.org/10.1080/15592294.2020.1790950
Journal volume & issue
Vol. 16, no. 2
pp. 196 – 208

Abstract

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In the clinical management of paediatric solid tumours, histological examination of tumour tissue obtained by a biopsy remains the gold standard to establish a conclusive pathological diagnosis. The DNA methylation pattern of a tumour is known to correlate with the histopathological diagnosis across cancer types and is showing promise in the diagnostic workup of tumour samples. This methylation pattern can be detected in the cell-free DNA. Here, we provide proof-of-concept of histopathologic classification of paediatric tumours using cell-free reduced representation bisulphite sequencing (cf-RRBS) from retrospectively collected plasma and cerebrospinal fluid samples. We determined the correct tumour type in 49 out of 60 (81.6%) samples starting from minute amounts (less than 10 ng) of cell-free DNA. We demonstrate that the majority of misclassifications were associated with sample quality and not with the extent of disease. Our approach has the potential to help tackle some of the remaining diagnostic challenges in paediatric oncology in a cost-effective and minimally invasive manner.

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