Experimental and Molecular Medicine (Mar 2018)

Neural stem cells from a mouse model of Rett syndrome are prone to senescence, show reduced capacity to cope with genotoxic stress, and are impaired in the differentiation process

  • Nicola Alessio,
  • Francesco Riccitiello,
  • Tiziana Squillaro,
  • Stefania Capasso,
  • Stefania Del Gaudio,
  • Giovanni Di Bernardo,
  • Marilena Cipollaro,
  • Mariarosa A. B. Melone,
  • Gianfranco Peluso,
  • Umberto Galderisi

DOI
https://doi.org/10.1038/s12276-017-0005-x
Journal volume & issue
Vol. 50, no. 3
pp. 1 – 9

Abstract

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Rett syndrome: Mutation affects neural stem cells In Rett syndrome, neural stem cells lose some of their “stem cell like” properties, impairing brain functions. Patients with this rare neurological condition, almost exclusively girls, show impaired movement and speech beginning at 6–18 months of age. Mutations in the MECP2 gene are known to be involved, but the specifics are poorly understood. Umberto Galderisi at Temple University in Philadelphia and co-workers in Italy used a mouse model to trace how MECP2 mutations affect neural stem cells. They found that the mutated cells lost key stem cell abilities, including the capacity to renew themselves by dividing, and the ability to differentiate, or turn into other cell types. The cells were also highly susceptible to DNA damage and unable to repair it. These results improve our understanding of Rett syndrome and may help develop new treatments.