Supraphysiological protection from replication stress does not extend mammalian lifespan
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Supraphysiological protection from replication stress does not extend mammalian lifespan. / Albers, Eliene; Avram, Alexandra; Sbroggio, Mauro; Fernandez-Capetillo, Oscar; Lopez-Contreras, Andres J.
In: Aging, Vol. 12, No. 7, 2020, p. 5612-5624.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - Supraphysiological protection from replication stress does not extend mammalian lifespan
AU - Albers, Eliene
AU - Avram, Alexandra
AU - Sbroggio, Mauro
AU - Fernandez-Capetillo, Oscar
AU - Lopez-Contreras, Andres J.
PY - 2020
Y1 - 2020
N2 - Replication Stress (RS) is a type of DNA damage generated at the replication fork, characterized by single-stranded DNA (ssDNA) accumulation, and which can be caused by a variety of factors. Previous studies have reported elevated RS levels in aged cells. In addition, mouse models with a deficient RS response show accelerated aging. However, the relevance of endogenous or physiological RS, compared to other sources of genomic instability, for the normal onset of aging is unknown. We have performed long term survival studies of transgenic mice with extra copies of the Chk1 and/or Rrm2 genes, which we previously showed extend the lifespan of a progeroid ATR-hypomorphic model suffering from high levels of RS. In contrast to their effect in the context of progeria, the lifespan of Chk1, Rrm2 and Chk1/Rrm2 transgenic mice was similar to WT littermates in physiological settings. Most mice studied died due to tumors-mainly lymphomas-irrespective of their genetic background. Interestingly, a higher but not statistically significant percentage of transgenic mice developed tumors compared to WT mice. Our results indicate that supraphysiological protection from RS does not extend lifespan, indicating that RS may not be a relevant source of genomic instability on the onset of normal aging.
AB - Replication Stress (RS) is a type of DNA damage generated at the replication fork, characterized by single-stranded DNA (ssDNA) accumulation, and which can be caused by a variety of factors. Previous studies have reported elevated RS levels in aged cells. In addition, mouse models with a deficient RS response show accelerated aging. However, the relevance of endogenous or physiological RS, compared to other sources of genomic instability, for the normal onset of aging is unknown. We have performed long term survival studies of transgenic mice with extra copies of the Chk1 and/or Rrm2 genes, which we previously showed extend the lifespan of a progeroid ATR-hypomorphic model suffering from high levels of RS. In contrast to their effect in the context of progeria, the lifespan of Chk1, Rrm2 and Chk1/Rrm2 transgenic mice was similar to WT littermates in physiological settings. Most mice studied died due to tumors-mainly lymphomas-irrespective of their genetic background. Interestingly, a higher but not statistically significant percentage of transgenic mice developed tumors compared to WT mice. Our results indicate that supraphysiological protection from RS does not extend lifespan, indicating that RS may not be a relevant source of genomic instability on the onset of normal aging.
KW - Aging
KW - Cancer
KW - DNA damage
KW - Mouse models
KW - Replication stress
U2 - 10.18632/aging.103039
DO - 10.18632/aging.103039
M3 - Journal article
C2 - 32253367
AN - SCOPUS:85083552832
VL - 12
SP - 5612
EP - 5624
JO - Aging
JF - Aging
SN - 1945-4589
IS - 7
ER -
ID: 242781909