4.6 Article

Inhibition of activated pericentromeric SINE/Alu repeat transcription in senescent human adult stem cells reinstates self-renewal

Journal

CELL CYCLE
Volume 10, Issue 17, Pages 3016-3030

Publisher

TAYLOR & FRANCIS INC
DOI: 10.4161/cc.10.17.17543

Keywords

adult stem cells; senescence; SINE/Alu transposons; DNA damage; H2AX; ChIP-seq; cohesin; condensin; PML body; induced pluripotency

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Funding

  1. National Institutes of Health [UL1 DE019608]
  2. Buck Institute Trust
  3. Alfred P. Sloan Foundation [BR-4839]

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Cellular aging is linked to deficiencies in efficient repair of DNA double strand breaks and authentic genome maintenance at the chromatin level. Aging poses a significant threat to adult stem cell function by triggering persistent DNA damage and ultimately cellular senescence. Senescence is often considered to be an irreversible process. Moreover, critical genomic regions engaged in persistent DNA damage accumulation are unknown. Here we report that 65% of naturally occurring repairable DNA damage in self-renewing adult stem cells occurs within transposable elements. Upregulation of Alu retrotransposon transcription upon ex vivo aging causes nuclear cytotoxicity associated with the formation of persistent DNA damage foci and loss of efficient DNA repair in pericentric chromatin. This occurs due to a failure to recruit of condensin I and cohesin complexes. Our results demonstrate that the cytotoxicity of induced Alu repeats is functionally relevant for the human adult stem cell aging. Stable suppression of Alu transcription can reverse the senescent phenotype, reinstating the cells' self-renewing properties and increasing their plasticity by altering so-called master pluripotency regulators.

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