Scientific Reports (Jan 2022)

Genome-wide methylation analyses identifies Non-coding RNA genes dysregulated in breast tumours that metastasise to the brain

  • Rajendra P. Pangeni,
  • Ivonne Olivaries,
  • David Huen,
  • Vannessa C. Buzatto,
  • Timothy P. Dawson,
  • Katherine M. Ashton,
  • Charles Davis,
  • Andrew R. Brodbelt,
  • Michael D. Jenkinson,
  • Ivan Bièche,
  • Lu Yang,
  • Farida Latif,
  • John L. Darling,
  • Tracy J. Warr,
  • Mark R. Morris

DOI
https://doi.org/10.1038/s41598-022-05050-z
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 14

Abstract

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Abstract Brain metastases comprise 40% of all metastatic tumours and breast tumours are among the tumours that most commonly metastasise to the brain, the role that epigenetic gene dysregulation plays in this process is not well understood. We carried out 450 K methylation array analysis to investigate epigenetically dysregulated genes in breast to brain metastases (BBM) compared to normal breast tissues (BN) and primary breast tumours (BP). For this, we referenced 450 K methylation data for BBM tumours prepared in our laboratory with BN and BP from The Cancer Genome Atlas. Experimental validation on our initially identified genes, in an independent cohort of BP and in BBM and their originating primary breast tumours using Combined Bisulphite and Restriction Analysis (CoBRA) and Methylation Specific PCR identified three genes (RP11-713P17.4, MIR124-2, NUS1P3) that are hypermethylated and three genes (MIR3193, CTD-2023M8.1 and MTND6P4) that are hypomethylated in breast to brain metastases. In addition, methylation differences in candidate genes between BBM tumours and originating primary tumours shows dysregulation of DNA methylation occurs either at an early stage of tumour evolution (in the primary tumour) or at a later evolutionary stage (where the epigenetic change is only observed in the brain metastasis). Epigentic changes identified could also be found when analysing tumour free circulating DNA (tfcDNA) in patient’s serum taken during BBM biopsies. Epigenetic dysregulation of RP11-713P17.4, MIR3193, MTND6P4 are early events suggesting a potential use for these genes as prognostic markers.