Abstract AIMS Paediatric high-grade glioma (HGG) and ependymoma (EPN) are two devastating malignant tumours of the central nervous system that unfortunately carry a poor prognosis. As R loops are a known source of genomic instability in eukaryotic cells and have previously been revealed to undergo m6A RNA methylation, we sought to investigate the potential link between m6A methylation and R loops in relation to the pathogenesis of paediatric gliomas. METHOD Paediatric HGG cell lines including KNS42, GCE62 and SF188, and paediatric EPN cell lines including BXD- 1425EPN and EPN9, were utilised for experimental analysis, in addition to normal human astrocytes. Immuno- cytochemistry was performed to assess m6A and R loop levels in tumour cell lines compared to normal human astrocytes. Moreover, DNA damage levels and the effects of anti-cancer drugs on R loop levels were also examined. RESULTS Immunocytochemistry analysis revealed that overall m6A and R loop levels were higher in tumour cell lines compared to normal human astrocytes. Furthermore, differences in R loop levels were observed as a result of pharmacological and biological manipulation, including reduction in R loop abundance with PARP inhibitors. CONCLUSIONS The link between m6A methylation and R loops in relation to the pathogenesis of paediatric HGG and EPN is being investigated. The results of these experiments will be presented.