DNA damage response and cellular senescence in tissues of aging mice

C Wang, D Jurk, M Maddick, G Nelson… - Aging cell, 2009 - Wiley Online Library
Aging cell, 2009Wiley Online Library
The impact of cellular senescence onto aging of organisms is not fully clear, not at least
because of the scarcity of reliable data on the mere frequency of senescent cells in aging
tissues. Activation of a DNA damage response including formation of DNA damage foci
containing activated H2A. X (γ‐H2A. X) at either uncapped telomeres or persistent DNA
strand breaks is the major trigger of cell senescence. Therefore, γ‐H2A. X
immunohistochemistry (IHC) was established by us as a reliable quantitative indicator of …
Summary
The impact of cellular senescence onto aging of organisms is not fully clear, not at least because of the scarcity of reliable data on the mere frequency of senescent cells in aging tissues. Activation of a DNA damage response including formation of DNA damage foci containing activated H2A.X (γ‐H2A.X) at either uncapped telomeres or persistent DNA strand breaks is the major trigger of cell senescence. Therefore, γ‐H2A.X immunohistochemistry (IHC) was established by us as a reliable quantitative indicator of senescence in fibroblasts in vitro and in hepatocytes in vivo and the age dependency of DNA damage foci accumulation in ten organs of C57Bl6 mice was analysed over an age range from 12 to 42 months. There were significant increases with age in the frequency of foci‐containing cells in lung, spleen, dermis, liver and gut epithelium. In liver, foci‐positive cells were preferentially found in the centrilobular area, which is exposed to higher levels of oxidative stress. Foci formation in the intestine was restricted to the crypts. It was not associated with either apoptosis or hyperproliferation. That telomeres shortened with age in both crypt and villus enterocytes, but telomeres in the crypt epithelium were longer than those in villi at all ages were confirmed by us. Still, there was no more than random co‐localization between γ‐H2A.X foci and telomeres even in crypts from very old mice, indicating that senescence in the crypt enterocytes is telomere independent. The results suggest that stress‐dependent cell senescence could play a causal role for aging of mice.
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