2008
DOI: 10.1073/pnas.0801457105
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Proteins induced by telomere dysfunction and DNA damage represent biomarkers of human aging and disease

Abstract: Telomere dysfunction limits the proliferative capacity of human cells by activation of DNA damage responses, inducing senescence or apoptosis. In humans, telomere shortening occurs in the vast majority of tissues during aging, and telomere shortening is accelerated in chronic diseases that increase the rate of cell turnover. Yet, the functional role of telomere dysfunction and DNA damage in human aging and diseases remains under debate. Here, we identified marker proteins (i.e., CRAMP, stathmin, EF-1α, and chi… Show more

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Cited by 152 publications
(132 citation statements)
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“…These markers show an increased expression in various tissues and blood plasma of aging telomere dysfunctional mice but not in wildtype controls. The same biomarkers significantly increase during human aging and aging-associated disease (Jiang et al 2008). Together these results support the hypothesis that accumulation of telomere dysfunction and DNA damage contribute to human aging, but have little impact on aging of wild type mice with long telomere reserves.…”
Section: Telomere Shortening and Stem Cell Agingsupporting
confidence: 75%
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“…These markers show an increased expression in various tissues and blood plasma of aging telomere dysfunctional mice but not in wildtype controls. The same biomarkers significantly increase during human aging and aging-associated disease (Jiang et al 2008). Together these results support the hypothesis that accumulation of telomere dysfunction and DNA damage contribute to human aging, but have little impact on aging of wild type mice with long telomere reserves.…”
Section: Telomere Shortening and Stem Cell Agingsupporting
confidence: 75%
“…Telomere dysfunction increased the influence of environmental alterations limiting the function of HSCs in aging mice. Experimental evidence for an accumulation of telomere dysfunction in aging humans (Jiang et al 2008) and clinical data (Table 1) support the hypothesis that environmental alterations induced by telomere dysfunction could contribute to the decline in stem cell function in human aging.…”
Section: Cell Extrinsic Checkpoints Limiting Stem Cell Function In Rementioning
confidence: 52%
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