Acute systemic DNA damage in youth does not impair immune defense with aging
Aging-related decline in immunity is believed to be the main driver behind decreased vaccine efficacy and reduced resistance to infections in older adults. Unrepaired DNA damage is known to precipitate cellular senescence, which was hypothesized to be the underlying cause of certain age-related phen...
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WILEY-BLACKWELL
2016
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ndltd-arizona.edu-oai-arizona.openrepository.com-10150-6225992017-02-19T03:00:37Z Acute systemic DNA damage in youth does not impair immune defense with aging Pugh, Jason L. Foster, Sarah A. Sukhina, Alona S. Petravic, Janka Uhrlaub, Jennifer L. Padilla-Torres, Jose Hayashi, Tomonori Nakachi, Kei Smithey, Megan J. Nikolich-Žugich, Janko Univ Arizona, Coll Med, Dept Immunobiol Univ Arizona, Coll Med, Arizona Ctr Aging Univ Arizona, Grad Interdisciplinary Program Genet Univ Arizona, Inst BIO5 Univ Arizona, Coll Med, Translat Neurotrauma Res Program, Barrow Neurol Inst,Phoenix Childrens Hosp,Dept Ch Department of Immunobiology; University of Arizona College of Medicine; Tucson AZ USA Department of Immunobiology; University of Arizona College of Medicine; Tucson AZ USA Department of Immunobiology; University of Arizona College of Medicine; Tucson AZ USA Centre for Vascular Research; University of New South Wales; Sydney NSW 2052 Australia Department of Immunobiology; University of Arizona College of Medicine; Tucson AZ USA Department of Immunobiology; University of Arizona College of Medicine; Tucson AZ USA Radiation Effects Research Foundation; Minato-Ku Hiroshima Japan Radiation Effects Research Foundation; Minato-Ku Hiroshima Japan Department of Immunobiology; University of Arizona College of Medicine; Tucson AZ USA Department of Immunobiology; University of Arizona College of Medicine; Tucson AZ USA aging DNA damage irradiation T-cell vaccination Aging-related decline in immunity is believed to be the main driver behind decreased vaccine efficacy and reduced resistance to infections in older adults. Unrepaired DNA damage is known to precipitate cellular senescence, which was hypothesized to be the underlying cause of certain age-related phenotypes. Consistent with this, some hallmarks of immune aging were more prevalent in individuals exposed to whole-body irradiation (WBI), which leaves no anatomical repository of undamaged hematopoietic cells. To decisively test whether and to what extent WBI in youth will leave a mark on the immune system as it ages, we exposed young male C57BL/ 6 mice to sublethal WBI (0.5-4 Gy), mimicking human survivor exposure during nuclear catastrophe. We followed lymphocyte homeostasis thorough the lifespan, response to vaccination, and ability to resist lethal viral challenge in the old age. None of the irradiated groups showed significant differences compared with mock-irradiated (0 Gy) animals for the parameters measured. Even the mice that received the highest dose of sublethal WBI in youth (4 Gy) exhibited equilibrated lymphocyte homeostasis, robust T-and B-cell responses to live attenuated West Nile virus (WNV) vaccine and full survival following vaccination upon lethal WNV challenge. Therefore, a single dose of nonlethal WBI in youth, resulting in widespread DNA damage and repopulation stress in hematopoietic cells, leaves no significant trace of increased immune aging in a lethal vaccine challenge model. 2016-08 Article Acute systemic DNA damage in youth does not impair immune defense with aging 2016, 15 (4):686 Aging Cell 14749718 27072188 10.1111/acel.12478 http://hdl.handle.net/10150/622599 http://arizona.openrepository.com/arizona/handle/10150/622599 Aging Cell en http://doi.wiley.com/10.1111/acel.12478 © 2016 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd. This is an open access article under the terms of the Creative Commons Attribution License WILEY-BLACKWELL |
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NDLTD |
| language |
en |
| sources |
NDLTD |
| topic |
aging DNA damage irradiation T-cell vaccination |
| spellingShingle |
aging DNA damage irradiation T-cell vaccination Pugh, Jason L. Foster, Sarah A. Sukhina, Alona S. Petravic, Janka Uhrlaub, Jennifer L. Padilla-Torres, Jose Hayashi, Tomonori Nakachi, Kei Smithey, Megan J. Nikolich-Žugich, Janko Acute systemic DNA damage in youth does not impair immune defense with aging |
| description |
Aging-related decline in immunity is believed to be the main driver behind decreased vaccine efficacy and reduced resistance to infections in older adults. Unrepaired DNA damage is known to precipitate cellular senescence, which was hypothesized to be the underlying cause of certain age-related phenotypes. Consistent with this, some hallmarks of immune aging were more prevalent in individuals exposed to whole-body irradiation (WBI), which leaves no anatomical repository of undamaged hematopoietic cells. To decisively test whether and to what extent WBI in youth will leave a mark on the immune system as it ages, we exposed young male C57BL/ 6 mice to sublethal WBI (0.5-4 Gy), mimicking human survivor exposure during nuclear catastrophe. We followed lymphocyte homeostasis thorough the lifespan, response to vaccination, and ability to resist lethal viral challenge in the old age. None of the irradiated groups showed significant differences compared with mock-irradiated (0 Gy) animals for the parameters measured. Even the mice that received the highest dose of sublethal WBI in youth (4 Gy) exhibited equilibrated lymphocyte homeostasis, robust T-and B-cell responses to live attenuated West Nile virus (WNV) vaccine and full survival following vaccination upon lethal WNV challenge. Therefore, a single dose of nonlethal WBI in youth, resulting in widespread DNA damage and repopulation stress in hematopoietic cells, leaves no significant trace of increased immune aging in a lethal vaccine challenge model. |
| author2 |
Univ Arizona, Coll Med, Dept Immunobiol |
| author_facet |
Univ Arizona, Coll Med, Dept Immunobiol Pugh, Jason L. Foster, Sarah A. Sukhina, Alona S. Petravic, Janka Uhrlaub, Jennifer L. Padilla-Torres, Jose Hayashi, Tomonori Nakachi, Kei Smithey, Megan J. Nikolich-Žugich, Janko |
| author |
Pugh, Jason L. Foster, Sarah A. Sukhina, Alona S. Petravic, Janka Uhrlaub, Jennifer L. Padilla-Torres, Jose Hayashi, Tomonori Nakachi, Kei Smithey, Megan J. Nikolich-Žugich, Janko |
| author_sort |
Pugh, Jason L. |
| title |
Acute systemic DNA damage in youth does not impair immune defense with aging |
| title_short |
Acute systemic DNA damage in youth does not impair immune defense with aging |
| title_full |
Acute systemic DNA damage in youth does not impair immune defense with aging |
| title_fullStr |
Acute systemic DNA damage in youth does not impair immune defense with aging |
| title_full_unstemmed |
Acute systemic DNA damage in youth does not impair immune defense with aging |
| title_sort |
acute systemic dna damage in youth does not impair immune defense with aging |
| publisher |
WILEY-BLACKWELL |
| publishDate |
2016 |
| url |
http://hdl.handle.net/10150/622599 http://arizona.openrepository.com/arizona/handle/10150/622599 |
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