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The epigenetic regulator SIRT7 guards against mammalian cellular senescence induced by ribosomal DNA instability.


ABSTRACT: In the yeast Saccharomyces cerevisiae, genomic instability in rDNA repeat sequences is an underlying cause of cell aging and is suppressed by the chromatin-silencing factor Sir2. In humans, rDNA instability is observed in cancers and premature aging syndromes, but its underlying mechanisms and functional consequences remain unclear. Here, we uncovered a pivotal role of sirtuin 7 (SIRT7), a mammalian Sir2 homolog, in guarding against rDNA instability and show that this function of SIRT7 protects against senescence in primary human cells. We found that, mechanistically, SIRT7 is required for association of SNF2H (also called SMARCA5, SWI/SNF-related matrix-associated actin-dependent regulator of chromatin, subfamily A, member 5), a component of the nucleolar heterochromatin-silencing complex NoRC, with rDNA sequences. Defective rDNA-heterochromatin silencing in SIRT7-deficient cells unleashed rDNA instability, with excision and loss of rDNA gene copies, which in turn induced acute senescence. Mounting evidence indicates that accumulation of senescent cells significantly contributes to tissue dysfunction in aging-related pathologies. Our findings identify rDNA instability as a driver of mammalian cellular senescence and implicate SIRT7-dependent heterochromatin silencing in protecting against this process.

SUBMITTER: Paredes S 

PROVIDER: S-EPMC6052228 | biostudies-literature | 2018 Jul

REPOSITORIES: biostudies-literature

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The epigenetic regulator SIRT7 guards against mammalian cellular senescence induced by ribosomal DNA instability.

Paredes Silvana S   Angulo-Ibanez Maria M   Tasselli Luisa L   Carlson Scott M SM   Zheng Wei W   Li Tie-Mei TM   Chua Katrin F KF  

The Journal of biological chemistry 20180504 28


In the yeast <i>Saccharomyces cerevisiae</i>, genomic instability in rDNA repeat sequences is an underlying cause of cell aging and is suppressed by the chromatin-silencing factor Sir2. In humans, rDNA instability is observed in cancers and premature aging syndromes, but its underlying mechanisms and functional consequences remain unclear. Here, we uncovered a pivotal role of sirtuin 7 (SIRT7), a mammalian Sir2 homolog, in guarding against rDNA instability and show that this function of SIRT7 pr  ...[more]

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