Movement decline across lifespan of Caenorhabditis elegans mutants in the insulin/insulin‐like signaling pathway |
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| Authors: | Breanne L Newell Stamper James R Cypser Katerina Kechris David Alan Kitzenberg Patricia M Tedesco Thomas E Johnson |
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| Institution: | 1. Institute for Behavioral Genetics, University of Colorado Boulder, Boulder, CO, USA;2. Department of Integrative Physiology, University of Colorado Boulder, Boulder, CO, USA;3. Department of Biostatistics and Informatics, University of Colorado Denver, Denver, CO, USA |
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| Abstract: | Research in aging biology has identified several pathways that are molecularly conserved across species that extend lifespan when mutated. The insulin/insulin‐like signaling (IIS) pathway is one of the most widely studied of these. It has been assumed that extending lifespan also extends healthspan (the period of life with minimal functional loss). However, data supporting this assumption conflict and recent evidence suggest that life extension may, in and of itself, extend the frail period. In this study, we use Caenorhabditis elegans to further probe the link between lifespan and healthspan. Using movement decline as a measure of health, we assessed healthspan across the entire lifespan in nine IIS pathway mutants. In one series of experiments, we studied healthspan in mass cultures, and in another series, we studied individuals longitudinally. We found that long‐lived mutants display prolonged mid‐life movement and do not prolong the frailty period. Lastly, we observed that early‐adulthood movement was not predictive of late‐life movement or survival, within identical phenotypes. Overall, these observations show that extending lifespan does not prolong the period of frailty. Both genotype and a stochastic component modulate aging, and movement late in life is more variable than early‐life movement. |
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| Keywords: | aging
C elegans
demography healthspan insulin signaling life‐history lifespan longevity movement mutants |
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