Leisure-Time and Occupational Physical Activity Associates Differently with Epigenetic Aging
Kankaanpää, A., Tolvanen, A., Bollepalli, S., Leskinen, T., Kujala, U. M., Kaprio, J., Ollikainen, M., & Sillanpää, E. (2021). Leisure-Time and Occupational Physical Activity Associates Differently with Epigenetic Aging. Medicine and Science in Sports and Exercise, 53(3), 487-495. https://doi.org/10.1249/MSS.0000000000002498
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Medicine and Science in Sports and ExerciseAuthors
Date
2021Discipline
Gerontologia ja kansanterveysPsykologiaLiikuntalääketiedeGerontologian tutkimuskeskusHyvinvoinnin tutkimuksen yhteisöGerontology and Public HealthPsychologySports and Exercise MedicineGerontology Research CenterSchool of WellbeingCopyright
© 2020 the Authors
Purpose: Greater leisure-time physical activity (LTPA) associates with healthier lives, but knowledge regarding occupational physical activity (OPA) is more inconsistent. DNA methylation (DNAm) patterns capture age-related changes in different tissues. We aimed to assess how LTPA and OPA are associated with three DNAm based epigenetic age estimates, namely DNAm Age, PhenoAge and GrimAge.
Methods: The participants were young adult (21-25-year-old, n = 285) and older (55-74-year-old, n = 235) twin pairs, including 16 pairs with documented long-term LTPA discordance. Genome-wide DNAm from blood samples was used to compute DNAm Age, PhenoAge and GrimAge Age acceleration (Acc), which describes the difference between chronological and epigenetic ages. Physical activity was assessed with sport, leisure-time and work indices based on the Baecke Questionnaire. Genetic and environmental variance components of epigenetic age Acc were estimated by quantitative genetic modelling.Epigenetic age Acc was highly heritable in young adult and older twin pairs (~60%). Sport index was associated with slower and OPA with faster DNAm GrimAge Acc after adjusting the model for sex. Genetic factors and non-shared environmental factors in common with sport index explained 1.5-2.7% and 1.9-3.5%, respectively, of the variation in GrimAge Acc. The corresponding proportions considering OPA were 0.4-1.8% and 0.7-1.8%, respectively. However, these proportions were minor (<0.5%) after adjusting the model for smoking status.
Conclusions: LTPA associates with slower and OPA with faster epigenetic aging. However, adjusting the models for smoking status, which may reflect the accumulation of unhealthy lifestyle habits, attenuated the associations.
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Lippincott Williams & WilkinsISSN Search the Publication Forum
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https://converis.jyu.fi/converis/portal/detail/Publication/41992101
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This work was supported by the Academy of Finland [260001 to ES, 213506, 308248, 312073 to JK, 251316, and 297908 to MO], EC FP5 GenomEUtwin (JK), NIH NIH/NHLBI (grant HL104125), EC MC ITN Project EPITRAIN (JK & MO) project and the University of Helsinki Research Funds to MO, Sigrid Juselius Foundation to MO and JK, Yrjö Jahnsson Foundation (6868) and Juho Vainio Foundation to ES. TWINACTIVE study was supported by the Finnish Ministry of Education and Culture (UMK), Academy of Finland (UMK) and Juho Vainio Foundation (UMK). ...License
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