Frontiers in Genetics (Apr 2022)

DNA Methylation Analysis of Ribosomal DNA in Adults With Down Syndrome

  • Francesco Ravaioli,
  • Michele Zampieri,
  • Luca Morandi,
  • Luca Morandi,
  • Chiara Pirazzini,
  • Camilla Pellegrini,
  • Sara De Fanti,
  • Sara De Fanti,
  • Noémie Gensous,
  • Noémie Gensous,
  • Gian Luca Pirazzoli,
  • Luisa Sambati,
  • Alessandro Ghezzo,
  • Fabio Ciccarone,
  • Anna Reale,
  • Daniela Monti,
  • Stefano Salvioli,
  • Paola Caiafa,
  • Miriam Capri,
  • Alexander Bürkle,
  • Maria Moreno-Villanueva,
  • Paolo Garagnani,
  • Paolo Garagnani,
  • Paolo Garagnani,
  • Paolo Garagnani,
  • Claudio Franceschi,
  • Maria Giulia Bacalini

DOI
https://doi.org/10.3389/fgene.2022.792165
Journal volume & issue
Vol. 13

Abstract

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Control of ribosome biogenesis is a critical aspect of the regulation of cell metabolism. As ribosomal genes (rDNA) are organized in repeated clusters on chromosomes 13, 14, 15, 21, and 22, trisomy of chromosome 21 confers an excess of rDNA copies to persons with Down syndrome (DS). Previous studies showed an alteration of ribosome biogenesis in children with DS, but the epigenetic regulation of rDNA genes has not been investigated in adults with DS so far. In this study, we used a targeted deep-sequencing approach to measure DNA methylation (DNAm) of rDNA units in whole blood from 69 adults with DS and 95 euploid controls. We further evaluated the expression of the precursor of ribosomal RNAs (RNA45S) in peripheral blood mononuclear cells (PBMCs) from the same subjects. We found that the rDNA promoter tends to be hypermethylated in DS concerning the control group. The analysis of epihaplotypes (the combination of methylated and unmethylated CpG sites along the same DNA molecule) showed a significantly lower intra-individual diversity in the DS group, which at the same time was characterized by a higher interindividual variability. Finally, we showed that RNA45S expression is lower in adults with DS. Collectively, our results suggest a rearrangement of the epigenetic profile of rDNA in DS, possibly to compensate for the extranumerary rDNA copies. Future studies should assess whether the regulation of ribosome biogenesis can contribute to the pathogenesis of DS and explain the clinical heterogeneity characteristic of the syndrome.

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