PLoS ONE (Jan 2014)

Expression of the genetic suppressor element 24.2 (GSE24.2) decreases DNA damage and oxidative stress in X-linked dyskeratosis congenita cells.

  • Cristina Manguan-Garcia,
  • Laura Pintado-Berninches,
  • Jaime Carrillo,
  • Rosario Machado-Pinilla,
  • Leandro Sastre,
  • Carme Pérez-Quilis,
  • Isabel Esmoris,
  • Amparo Gimeno,
  • Jose Luis García-Giménez,
  • Federico V Pallardó,
  • Rosario Perona

DOI
https://doi.org/10.1371/journal.pone.0101424
Journal volume & issue
Vol. 9, no. 7
p. e101424

Abstract

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The predominant X-linked form of Dyskeratosis congenita results from mutations in DKC1, which encodes dyskerin, a protein required for ribosomal RNA modification that is also a component of the telomerase complex. We have previously found that expression of an internal fragment of dyskerin (GSE24.2) rescues telomerase activity in X-linked dyskeratosis congenita (X-DC) patient cells. Here we have found that an increased basal and induced DNA damage response occurred in X-DC cells in comparison with normal cells. DNA damage that is also localized in telomeres results in increased heterochromatin formation and senescence. Expression of a cDNA coding for GSE24.2 rescues both global and telomeric DNA damage. Furthermore, transfection of bacterial purified or a chemically synthesized GSE24.2 peptide is able to rescue basal DNA damage in X-DC cells. We have also observed an increase in oxidative stress in X-DC cells and expression of GSE24.2 was able to diminish it. Altogether our data indicated that supplying GSE24.2, either from a cDNA vector or as a peptide reduces the pathogenic effects of Dkc1 mutations and suggests a novel therapeutic approach.