Telomerase gene therapy ameliorates the effects of neurodegeneration associated to short telomeres in mice

Kurt Whittemore, Aksinya Derevyanko, Paula Martinez, Rosa Serrano, Marti Pumarola Batlle, Maria Fatima Bosch Tubert, Maria A. Blasco

Research output: Contribution to journalArticleResearch

4 Citations (Scopus)

Abstract

Neurodegenerative diseases associated with old age such as Alzheimer's disease present major problems for society, and they currently have no cure. The telomere protective caps at the ends of chromosomes shorten with age, and when they become critically short, they can induce a persistent DNA damage response at chromosome ends, triggering secondary cellular responses such as cell death and cellular senescence. Mice and humans with very short telomeres owing to telomerase deficiencies have an earlier onset of pathologies associated with loss of the regenerative capacity of tissues. However, the effects of short telomeres in very low proliferative tissues such as the brain have not been thoroughly investigated. Here, we describe a mouse model of neurodegeneration owing to presence of short telomeres in the brain as the consequence of telomerase deficiency. Interestingly, we find similar signs of neurodegeneration in very old mice as the consequence of physiological mouse aging. Next, we demonstrate that delivery of telomerase gene therapy to the brain of these mice results in amelioration of some of these neurodegeneration phenotypes. These findings suggest that short telomeres contribute to neurodegeneration diseases with aging and that telomerase activation may have a therapeutic value in these diseases.
Original languageEnglish
Pages (from-to)2916-2948
Number of pages33
JournalAging
Volume11
Issue number10
DOIs
Publication statusPublished - 31 May 2019

Keywords

  • ADENOASSOCIATED VIRUS
  • ADULT MICE
  • ALZHEIMERS-DISEASE
  • BLOOD-BRAIN-BARRIER
  • CENTRAL-NERVOUS-SYSTEM
  • MEMORY DEFICITS
  • PARKINSONS-DISEASE
  • REVERSE-TRANSCRIPTASE
  • STEM-CELLS
  • TAU TRANSGENIC MOUSE
  • TERT
  • gene therapy
  • neurodegeneration
  • telomerase

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