Spontaneous DNA damage to the nuclear genome promotes senescence, redox imbalance and aging

Accumulation of senescent cells over time contributes to aging and age-related diseases. However, what drives senescence in vivo is not clear. Here we used a genetic approach to determine if spontaneous nuclear DNA damage is sufficient to initiate senescence in mammals. Ercc1(-/∆) mice with reduced...

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Autores principales: Robinson, Andria R., Yousefzadeh, Matthew J., Rozgaja, Tania A., Wang, Jin, Li, Xuesen, Tilstra, Jeremy S., Feldman, Chelsea H., Gregg, Siobhán Q., Johnson, Caroline H., Skoda, Erin M., Frantz, Marie-Céline, Bell-Temin, Harris, Pope-Varsalona, Hannah, Gurkar, Aditi U., Nasto, Luigi A., Robinson, Renã A.S., Fuhrmann-Stroissnigg, Heike, Czerwinska, Jolanta, McGowan, Sara J., Cantu-Medellin, Nadiezhda, Harris, Jamie B., Maniar, Salony, Ross, Mark A., Trussoni, Christy E., LaRusso, Nicholas F., Cifuentes-Pagano, Eugenia, Pagano, Patrick J., Tudek, Barbara, Vo, Nam V., Rigatti, Lora H., Opresko, Patricia L., Stolz, Donna B., Watkins, Simon C., Burd, Christin E., Croix, Claudette M. St., Siuzdak, Gary, Yates, Nathan A., Robbins, Paul D., Wang, Yinsheng, Wipf, Peter, Kelley, Eric E., Niedernhofer, Laura J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2018
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6006678/
https://www.ncbi.nlm.nih.gov/pubmed/29747066
http://dx.doi.org/10.1016/j.redox.2018.04.007
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author Robinson, Andria R.
Yousefzadeh, Matthew J.
Rozgaja, Tania A.
Wang, Jin
Li, Xuesen
Tilstra, Jeremy S.
Feldman, Chelsea H.
Gregg, Siobhán Q.
Johnson, Caroline H.
Skoda, Erin M.
Frantz, Marie-Céline
Bell-Temin, Harris
Pope-Varsalona, Hannah
Gurkar, Aditi U.
Nasto, Luigi A.
Robinson, Renã A.S.
Fuhrmann-Stroissnigg, Heike
Czerwinska, Jolanta
McGowan, Sara J.
Cantu-Medellin, Nadiezhda
Harris, Jamie B.
Maniar, Salony
Ross, Mark A.
Trussoni, Christy E.
LaRusso, Nicholas F.
Cifuentes-Pagano, Eugenia
Pagano, Patrick J.
Tudek, Barbara
Vo, Nam V.
Rigatti, Lora H.
Opresko, Patricia L.
Stolz, Donna B.
Watkins, Simon C.
Burd, Christin E.
Croix, Claudette M. St.
Siuzdak, Gary
Yates, Nathan A.
Robbins, Paul D.
Wang, Yinsheng
Wipf, Peter
Kelley, Eric E.
Niedernhofer, Laura J.
author_facet Robinson, Andria R.
Yousefzadeh, Matthew J.
Rozgaja, Tania A.
Wang, Jin
Li, Xuesen
Tilstra, Jeremy S.
Feldman, Chelsea H.
Gregg, Siobhán Q.
Johnson, Caroline H.
Skoda, Erin M.
Frantz, Marie-Céline
Bell-Temin, Harris
Pope-Varsalona, Hannah
Gurkar, Aditi U.
Nasto, Luigi A.
Robinson, Renã A.S.
Fuhrmann-Stroissnigg, Heike
Czerwinska, Jolanta
McGowan, Sara J.
Cantu-Medellin, Nadiezhda
Harris, Jamie B.
Maniar, Salony
Ross, Mark A.
Trussoni, Christy E.
LaRusso, Nicholas F.
Cifuentes-Pagano, Eugenia
Pagano, Patrick J.
Tudek, Barbara
Vo, Nam V.
Rigatti, Lora H.
Opresko, Patricia L.
Stolz, Donna B.
Watkins, Simon C.
Burd, Christin E.
Croix, Claudette M. St.
Siuzdak, Gary
Yates, Nathan A.
Robbins, Paul D.
Wang, Yinsheng
Wipf, Peter
Kelley, Eric E.
Niedernhofer, Laura J.
author_sort Robinson, Andria R.
collection PubMed
description Accumulation of senescent cells over time contributes to aging and age-related diseases. However, what drives senescence in vivo is not clear. Here we used a genetic approach to determine if spontaneous nuclear DNA damage is sufficient to initiate senescence in mammals. Ercc1(-/∆) mice with reduced expression of ERCC1-XPF endonuclease have impaired capacity to repair the nuclear genome. Ercc1(-/∆) mice accumulated spontaneous, oxidative DNA damage more rapidly than wild-type (WT) mice. As a consequence, senescent cells accumulated more rapidly in Ercc1(-/∆) mice compared to repair-competent animals. However, the levels of DNA damage and senescent cells in Ercc1(-/∆) mice never exceeded that observed in old WT mice. Surprisingly, levels of reactive oxygen species (ROS) were increased in tissues of Ercc1(-/∆) mice to an extent identical to naturally-aged WT mice. Increased enzymatic production of ROS and decreased antioxidants contributed to the elevation in oxidative stress in both Ercc1(-/∆) and aged WT mice. Chronic treatment of Ercc1(-/∆) mice with the mitochondrial-targeted radical scavenger XJB-5–131 attenuated oxidative DNA damage, senescence and age-related pathology. Our findings indicate that nuclear genotoxic stress arises, at least in part, due to mitochondrial-derived ROS, and this spontaneous DNA damage is sufficient to drive increased levels of ROS, cellular senescence, and the consequent age-related physiological decline.
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spelling pubmed-60066782018-06-19 Spontaneous DNA damage to the nuclear genome promotes senescence, redox imbalance and aging Robinson, Andria R. Yousefzadeh, Matthew J. Rozgaja, Tania A. Wang, Jin Li, Xuesen Tilstra, Jeremy S. Feldman, Chelsea H. Gregg, Siobhán Q. Johnson, Caroline H. Skoda, Erin M. Frantz, Marie-Céline Bell-Temin, Harris Pope-Varsalona, Hannah Gurkar, Aditi U. Nasto, Luigi A. Robinson, Renã A.S. Fuhrmann-Stroissnigg, Heike Czerwinska, Jolanta McGowan, Sara J. Cantu-Medellin, Nadiezhda Harris, Jamie B. Maniar, Salony Ross, Mark A. Trussoni, Christy E. LaRusso, Nicholas F. Cifuentes-Pagano, Eugenia Pagano, Patrick J. Tudek, Barbara Vo, Nam V. Rigatti, Lora H. Opresko, Patricia L. Stolz, Donna B. Watkins, Simon C. Burd, Christin E. Croix, Claudette M. St. Siuzdak, Gary Yates, Nathan A. Robbins, Paul D. Wang, Yinsheng Wipf, Peter Kelley, Eric E. Niedernhofer, Laura J. Redox Biol Research Paper Accumulation of senescent cells over time contributes to aging and age-related diseases. However, what drives senescence in vivo is not clear. Here we used a genetic approach to determine if spontaneous nuclear DNA damage is sufficient to initiate senescence in mammals. Ercc1(-/∆) mice with reduced expression of ERCC1-XPF endonuclease have impaired capacity to repair the nuclear genome. Ercc1(-/∆) mice accumulated spontaneous, oxidative DNA damage more rapidly than wild-type (WT) mice. As a consequence, senescent cells accumulated more rapidly in Ercc1(-/∆) mice compared to repair-competent animals. However, the levels of DNA damage and senescent cells in Ercc1(-/∆) mice never exceeded that observed in old WT mice. Surprisingly, levels of reactive oxygen species (ROS) were increased in tissues of Ercc1(-/∆) mice to an extent identical to naturally-aged WT mice. Increased enzymatic production of ROS and decreased antioxidants contributed to the elevation in oxidative stress in both Ercc1(-/∆) and aged WT mice. Chronic treatment of Ercc1(-/∆) mice with the mitochondrial-targeted radical scavenger XJB-5–131 attenuated oxidative DNA damage, senescence and age-related pathology. Our findings indicate that nuclear genotoxic stress arises, at least in part, due to mitochondrial-derived ROS, and this spontaneous DNA damage is sufficient to drive increased levels of ROS, cellular senescence, and the consequent age-related physiological decline. Elsevier 2018-04-13 /pmc/articles/PMC6006678/ /pubmed/29747066 http://dx.doi.org/10.1016/j.redox.2018.04.007 Text en © 2018 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Research Paper
Robinson, Andria R.
Yousefzadeh, Matthew J.
Rozgaja, Tania A.
Wang, Jin
Li, Xuesen
Tilstra, Jeremy S.
Feldman, Chelsea H.
Gregg, Siobhán Q.
Johnson, Caroline H.
Skoda, Erin M.
Frantz, Marie-Céline
Bell-Temin, Harris
Pope-Varsalona, Hannah
Gurkar, Aditi U.
Nasto, Luigi A.
Robinson, Renã A.S.
Fuhrmann-Stroissnigg, Heike
Czerwinska, Jolanta
McGowan, Sara J.
Cantu-Medellin, Nadiezhda
Harris, Jamie B.
Maniar, Salony
Ross, Mark A.
Trussoni, Christy E.
LaRusso, Nicholas F.
Cifuentes-Pagano, Eugenia
Pagano, Patrick J.
Tudek, Barbara
Vo, Nam V.
Rigatti, Lora H.
Opresko, Patricia L.
Stolz, Donna B.
Watkins, Simon C.
Burd, Christin E.
Croix, Claudette M. St.
Siuzdak, Gary
Yates, Nathan A.
Robbins, Paul D.
Wang, Yinsheng
Wipf, Peter
Kelley, Eric E.
Niedernhofer, Laura J.
Spontaneous DNA damage to the nuclear genome promotes senescence, redox imbalance and aging
title Spontaneous DNA damage to the nuclear genome promotes senescence, redox imbalance and aging
title_full Spontaneous DNA damage to the nuclear genome promotes senescence, redox imbalance and aging
title_fullStr Spontaneous DNA damage to the nuclear genome promotes senescence, redox imbalance and aging
title_full_unstemmed Spontaneous DNA damage to the nuclear genome promotes senescence, redox imbalance and aging
title_short Spontaneous DNA damage to the nuclear genome promotes senescence, redox imbalance and aging
title_sort spontaneous dna damage to the nuclear genome promotes senescence, redox imbalance and aging
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6006678/
https://www.ncbi.nlm.nih.gov/pubmed/29747066
http://dx.doi.org/10.1016/j.redox.2018.04.007
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