TY - JOUR
T1 - Lifespan-extending caloric restriction or mTOR inhibition impair adaptive immunity of old mice by distinct mechanisms
AU - Goldberg, Emily L.
AU - Romero-Aleshire, Melissa J.
AU - Renkema, Kristin R.
AU - Ventevogel, Melissa S.
AU - Chew, Wade M.
AU - Uhrlaub, Jennifer L.
AU - Smithey, Megan J.
AU - Limesand, Kirsten H.
AU - Sempowski, Gregory D.
AU - Brooks, Heddwen L.
AU - Nikolich-Žugich, Janko
N1 - Publisher Copyright:
© 2014 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd.
PY - 2015/2/1
Y1 - 2015/2/1
N2 - Aging of the world population and a concomitant increase in age-related diseases and disabilities mandates the search for strategies to increase healthspan, the length of time an individual lives healthy and productively. Due to the age-related decline of the immune system, infectious diseases remain among the top 5-10 causes of mortality and morbidity in the elderly, and improving immune function during aging remains an important aspect of healthspan extension. Calorie restriction (CR) and more recently rapamycin (rapa) feeding have both been used to extend lifespan in mice. Preciously few studies have actually investigated the impact of each of these interventions upon in vivo immune defense against relevant microbial challenge in old organisms. We tested how rapa and CR each impacted the immune system in adult and old mice. We report that each intervention differentially altered T-cell development in the thymus, peripheral T-cell maintenance, T-cell function and host survival after West Nile virus infection, inducing distinct but deleterious consequences to the aging immune system. We conclude that neither rapa feeding nor CR, in the current form/administration regimen, may be optimal strategies for extending healthy immune function and, with it, lifespan.
AB - Aging of the world population and a concomitant increase in age-related diseases and disabilities mandates the search for strategies to increase healthspan, the length of time an individual lives healthy and productively. Due to the age-related decline of the immune system, infectious diseases remain among the top 5-10 causes of mortality and morbidity in the elderly, and improving immune function during aging remains an important aspect of healthspan extension. Calorie restriction (CR) and more recently rapamycin (rapa) feeding have both been used to extend lifespan in mice. Preciously few studies have actually investigated the impact of each of these interventions upon in vivo immune defense against relevant microbial challenge in old organisms. We tested how rapa and CR each impacted the immune system in adult and old mice. We report that each intervention differentially altered T-cell development in the thymus, peripheral T-cell maintenance, T-cell function and host survival after West Nile virus infection, inducing distinct but deleterious consequences to the aging immune system. We conclude that neither rapa feeding nor CR, in the current form/administration regimen, may be optimal strategies for extending healthy immune function and, with it, lifespan.
KW - Anti-aging
KW - Caloric restriction
KW - Cellular immunology
KW - Longevity regulation
KW - Mouse models
KW - T cell
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UR - http://www.scopus.com/inward/citedby.url?scp=84922636348&partnerID=8YFLogxK
U2 - 10.1111/acel.12280
DO - 10.1111/acel.12280
M3 - Article
C2 - 25424641
AN - SCOPUS:84922636348
SN - 1474-9718
VL - 14
SP - 130
EP - 138
JO - Aging cell
JF - Aging cell
IS - 1
ER -