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Effects of early-life exposure to Western diet and voluntary exercise on adult activity levels, exercise physiology, and associated traits in selectively bred High Runner mice
•Subjects were selectively bred High Runner (HR) and non-selected Control (C) mice.•Juveniles were housed with/without wheels and given standard or Western diet (WD).•After 8 weeks washout, early-life WD increased adult wheel running only in HR mice.•Early exercise increased muscle and brain mass, a...
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| Published in: | Physiology & behavior 2021-05, Vol.234, p.113389-113389, Article 113389 |
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| creator | Cadney, Marcell D. Hiramatsu, Layla Thompson, Zoe Zhao, Meng Kay, Jarren C. Singleton, Jennifer M. Albuquerque, Ralph Lacerda de Schmill, Margaret P. Saltzman, Wendy Garland, Theodore |
| description | •Subjects were selectively bred High Runner (HR) and non-selected Control (C) mice.•Juveniles were housed with/without wheels and given standard or Western diet (WD).•After 8 weeks washout, early-life WD increased adult wheel running only in HR mice.•Early exercise increased muscle and brain mass, and reduced anxiety-like behavior.•Early-life WD increased adult preference for WD but not for sucrose.
Exercise behavior is under partial genetic control, but it is also affected by numerous environmental factors, potentially including early-life experiences whose effects persist into adulthood. We studied genetic and early-life environmental effects on wheel-running behavior in a mouse model that includes four replicate high runner (HR) lines selectively bred for increased voluntary wheel running as young adults and four non-selected control (C) lines. In a full factorial design, mice from each line were granted wheel access or not and administered either standard or Western diet (WD) from weaning (3 weeks old) to 6 weeks of age (sexual maturity). In addition to acute effects, after a washout period of 8 weeks (∼6 human years) in which all mice had standard diet and no wheel access, we found both beneficial and detrimental effects of these early-life exposures. During the first week of treatments, WD increased distance run by 29% in C mice and 48% in HR mice (significant Diet × Linetype interaction), but diet effects disappeared by the third week. Across the three weeks of juvenile treatment, WD significantly increased fat mass (with lean mass as a covariate). Tested as adults, early-life exercise increased wheel running of C mice but not HR mice in the first week. Early-life exercise also reduced adult anxiety-like behavior and increased adult fasted blood glucose levels, triceps surae mass, subdermal fat pad mass, and brain mass, but decreased heart ventricle mass. Using fat mass as a covariate, early-life exercise treatment increased adult leptin concentration. In contrast, early-life WD increased adult wheel running of HR mice but not C mice. Early-life WD also increased adult lean mass and adult preference for Western diet in all groups. Surprisingly, early-life treatment had no significant effect on adult body fat or maximal aerobic capacity (VO2max). No previous study has tested for combined or interactive effects of early-life WD and exercise. Our results demonstrate that both factors can have long-lasting effects on adult voluntary exercise and related |
| doi_str_mv | 10.1016/j.physbeh.2021.113389 |
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Exercise behavior is under partial genetic control, but it is also affected by numerous environmental factors, potentially including early-life experiences whose effects persist into adulthood. We studied genetic and early-life environmental effects on wheel-running behavior in a mouse model that includes four replicate high runner (HR) lines selectively bred for increased voluntary wheel running as young adults and four non-selected control (C) lines. In a full factorial design, mice from each line were granted wheel access or not and administered either standard or Western diet (WD) from weaning (3 weeks old) to 6 weeks of age (sexual maturity). In addition to acute effects, after a washout period of 8 weeks (∼6 human years) in which all mice had standard diet and no wheel access, we found both beneficial and detrimental effects of these early-life exposures. During the first week of treatments, WD increased distance run by 29% in C mice and 48% in HR mice (significant Diet × Linetype interaction), but diet effects disappeared by the third week. Across the three weeks of juvenile treatment, WD significantly increased fat mass (with lean mass as a covariate). Tested as adults, early-life exercise increased wheel running of C mice but not HR mice in the first week. Early-life exercise also reduced adult anxiety-like behavior and increased adult fasted blood glucose levels, triceps surae mass, subdermal fat pad mass, and brain mass, but decreased heart ventricle mass. Using fat mass as a covariate, early-life exercise treatment increased adult leptin concentration. In contrast, early-life WD increased adult wheel running of HR mice but not C mice. Early-life WD also increased adult lean mass and adult preference for Western diet in all groups. Surprisingly, early-life treatment had no significant effect on adult body fat or maximal aerobic capacity (VO2max). No previous study has tested for combined or interactive effects of early-life WD and exercise. Our results demonstrate that both factors can have long-lasting effects on adult voluntary exercise and related phenotypes, and that these effects are modulated by genetic background. Overall, the long-lasting effects of early-life exercise were more pervasive than those of WD, suggesting critical opportunities for health intervention in childhood habits, as well as possible threats from modern challenges. These results may be relevant for understanding potential effects of activity reductions and dietary changes associated with the obesity epidemic and COVID-19 pandemic.</description><identifier>ISSN: 0031-9384</identifier><identifier>EISSN: 1873-507X</identifier><identifier>DOI: 10.1016/j.physbeh.2021.113389</identifier><identifier>PMID: 33741375</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Adiposity ; Animals ; Developmental programming ; Diet, Western - adverse effects ; Early-life effects ; Exercise ; Mice ; Mice, Inbred Strains ; Motor Activity ; Phenotype ; Reward ; Western diet ; Wheel running</subject><ispartof>Physiology & behavior, 2021-05, Vol.234, p.113389-113389, Article 113389</ispartof><rights>2021 Elsevier Inc.</rights><rights>Copyright © 2021 Elsevier Inc. All rights reserved.</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c467t-b519e7080444391fac96407221f6ed14b1591b0ac677ee2edc0717abef0e6f363</citedby><cites>FETCH-LOGICAL-c467t-b519e7080444391fac96407221f6ed14b1591b0ac677ee2edc0717abef0e6f363</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>230,314,780,784,885,27924,27925</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/33741375$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Cadney, Marcell D.</creatorcontrib><creatorcontrib>Hiramatsu, Layla</creatorcontrib><creatorcontrib>Thompson, Zoe</creatorcontrib><creatorcontrib>Zhao, Meng</creatorcontrib><creatorcontrib>Kay, Jarren C.</creatorcontrib><creatorcontrib>Singleton, Jennifer M.</creatorcontrib><creatorcontrib>Albuquerque, Ralph Lacerda de</creatorcontrib><creatorcontrib>Schmill, Margaret P.</creatorcontrib><creatorcontrib>Saltzman, Wendy</creatorcontrib><creatorcontrib>Garland, Theodore</creatorcontrib><title>Effects of early-life exposure to Western diet and voluntary exercise on adult activity levels, exercise physiology, and associated traits in selectively bred High Runner mice</title><title>Physiology & behavior</title><addtitle>Physiol Behav</addtitle><description>•Subjects were selectively bred High Runner (HR) and non-selected Control (C) mice.•Juveniles were housed with/without wheels and given standard or Western diet (WD).•After 8 weeks washout, early-life WD increased adult wheel running only in HR mice.•Early exercise increased muscle and brain mass, and reduced anxiety-like behavior.•Early-life WD increased adult preference for WD but not for sucrose.
Exercise behavior is under partial genetic control, but it is also affected by numerous environmental factors, potentially including early-life experiences whose effects persist into adulthood. We studied genetic and early-life environmental effects on wheel-running behavior in a mouse model that includes four replicate high runner (HR) lines selectively bred for increased voluntary wheel running as young adults and four non-selected control (C) lines. In a full factorial design, mice from each line were granted wheel access or not and administered either standard or Western diet (WD) from weaning (3 weeks old) to 6 weeks of age (sexual maturity). In addition to acute effects, after a washout period of 8 weeks (∼6 human years) in which all mice had standard diet and no wheel access, we found both beneficial and detrimental effects of these early-life exposures. During the first week of treatments, WD increased distance run by 29% in C mice and 48% in HR mice (significant Diet × Linetype interaction), but diet effects disappeared by the third week. Across the three weeks of juvenile treatment, WD significantly increased fat mass (with lean mass as a covariate). Tested as adults, early-life exercise increased wheel running of C mice but not HR mice in the first week. Early-life exercise also reduced adult anxiety-like behavior and increased adult fasted blood glucose levels, triceps surae mass, subdermal fat pad mass, and brain mass, but decreased heart ventricle mass. Using fat mass as a covariate, early-life exercise treatment increased adult leptin concentration. In contrast, early-life WD increased adult wheel running of HR mice but not C mice. Early-life WD also increased adult lean mass and adult preference for Western diet in all groups. Surprisingly, early-life treatment had no significant effect on adult body fat or maximal aerobic capacity (VO2max). No previous study has tested for combined or interactive effects of early-life WD and exercise. Our results demonstrate that both factors can have long-lasting effects on adult voluntary exercise and related phenotypes, and that these effects are modulated by genetic background. Overall, the long-lasting effects of early-life exercise were more pervasive than those of WD, suggesting critical opportunities for health intervention in childhood habits, as well as possible threats from modern challenges. These results may be relevant for understanding potential effects of activity reductions and dietary changes associated with the obesity epidemic and COVID-19 pandemic.</description><subject>Adiposity</subject><subject>Animals</subject><subject>Developmental programming</subject><subject>Diet, Western - adverse effects</subject><subject>Early-life effects</subject><subject>Exercise</subject><subject>Mice</subject><subject>Mice, Inbred Strains</subject><subject>Motor Activity</subject><subject>Phenotype</subject><subject>Reward</subject><subject>Western diet</subject><subject>Wheel running</subject><issn>0031-9384</issn><issn>1873-507X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNqFUd1uFCEUJkZjt9VH0PAAnRUGZpi50ZimtiZNTIxG7wjDHHbZsLABZtJ5Kl9R1q1Vr-SGi-_nfOd8CL2iZE0Jbd_s1oftkgbYrmtS0zWljHX9E7SinWBVQ8T3p2hFCKNVzzp-hs5T2pHyGGfP0RljglMmmhX6cW0M6JxwMBhUdEvlrAEM94eQpgg4B_wNUobo8WghY-VHPAc3-aziUmgQtU2Ag8dqnFzBdbazzQt2MINLl38ox7g2uLBZLn-5qJSCtirDiHNUtkSwHidwcHQAt-AhFujWbrb48-Q9RLy3Gl6gZ0a5BC8f_gv09cP1l6vb6u7Tzcer93eV5q3I1dDQHgTpCOec9dQo3beciLqmpoWR8oE2PR2I0q0QADWMmggq1ACGQGtYyy7Q25PvYRr2BQZfQjp5iHZfFpdBWfkv4u1WbsIsO0rarmuKQXMy0DGkFME8aimRxwblTj40KI8NylODRff678GPqt-VFcK7E6GcF2YLUSZtwWsYbSy3k2Ow_xnxE4JCtbc</recordid><startdate>20210515</startdate><enddate>20210515</enddate><creator>Cadney, Marcell D.</creator><creator>Hiramatsu, Layla</creator><creator>Thompson, Zoe</creator><creator>Zhao, Meng</creator><creator>Kay, Jarren C.</creator><creator>Singleton, Jennifer M.</creator><creator>Albuquerque, Ralph Lacerda de</creator><creator>Schmill, Margaret P.</creator><creator>Saltzman, Wendy</creator><creator>Garland, Theodore</creator><general>Elsevier Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>5PM</scope></search><sort><creationdate>20210515</creationdate><title>Effects of early-life exposure to Western diet and voluntary exercise on adult activity levels, exercise physiology, and associated traits in selectively bred High Runner mice</title><author>Cadney, Marcell D. ; 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Exercise behavior is under partial genetic control, but it is also affected by numerous environmental factors, potentially including early-life experiences whose effects persist into adulthood. We studied genetic and early-life environmental effects on wheel-running behavior in a mouse model that includes four replicate high runner (HR) lines selectively bred for increased voluntary wheel running as young adults and four non-selected control (C) lines. In a full factorial design, mice from each line were granted wheel access or not and administered either standard or Western diet (WD) from weaning (3 weeks old) to 6 weeks of age (sexual maturity). In addition to acute effects, after a washout period of 8 weeks (∼6 human years) in which all mice had standard diet and no wheel access, we found both beneficial and detrimental effects of these early-life exposures. During the first week of treatments, WD increased distance run by 29% in C mice and 48% in HR mice (significant Diet × Linetype interaction), but diet effects disappeared by the third week. Across the three weeks of juvenile treatment, WD significantly increased fat mass (with lean mass as a covariate). Tested as adults, early-life exercise increased wheel running of C mice but not HR mice in the first week. Early-life exercise also reduced adult anxiety-like behavior and increased adult fasted blood glucose levels, triceps surae mass, subdermal fat pad mass, and brain mass, but decreased heart ventricle mass. Using fat mass as a covariate, early-life exercise treatment increased adult leptin concentration. In contrast, early-life WD increased adult wheel running of HR mice but not C mice. Early-life WD also increased adult lean mass and adult preference for Western diet in all groups. Surprisingly, early-life treatment had no significant effect on adult body fat or maximal aerobic capacity (VO2max). No previous study has tested for combined or interactive effects of early-life WD and exercise. Our results demonstrate that both factors can have long-lasting effects on adult voluntary exercise and related phenotypes, and that these effects are modulated by genetic background. Overall, the long-lasting effects of early-life exercise were more pervasive than those of WD, suggesting critical opportunities for health intervention in childhood habits, as well as possible threats from modern challenges. These results may be relevant for understanding potential effects of activity reductions and dietary changes associated with the obesity epidemic and COVID-19 pandemic.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>33741375</pmid><doi>10.1016/j.physbeh.2021.113389</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record> |
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| ispartof | Physiology & behavior, 2021-05, Vol.234, p.113389-113389, Article 113389 |
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| subjects | Adiposity Animals Developmental programming Diet, Western - adverse effects Early-life effects Exercise Mice Mice, Inbred Strains Motor Activity Phenotype Reward Western diet Wheel running |
| title | Effects of early-life exposure to Western diet and voluntary exercise on adult activity levels, exercise physiology, and associated traits in selectively bred High Runner mice |
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