Exercise in vivo marks human myotubes in vitro: Training-induced increase in lipid metabolism.

Exercise in vivo marks human myotubes in vitro: Training-induced increase in lipid metabolism.

BACKGROUND AND AIMS:Physical activity has preventive as well as therapeutic benefits for overweight subjects. In this study we aimed to examine effects of in vivo exercise on in vitro metabolic adaptations by studying energy metabolism in cultured myotubes isolated from biopsies taken before and aft...

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Main Authors: Jenny Lund, Arild C Rustan, Nils G Løvsletten, Jonathan M Mudry, Torgrim M Langleite, Yuan Z Feng, Camilla Stensrud, Mari G Brubak, Christian A Drevon, Kåre I Birkeland, Kristoffer J Kolnes, Egil I Johansen, Daniel S Tangen, Hans K Stadheim, Hanne L Gulseth, Anna Krook, Eili T Kase, Jørgen Jensen, G Hege Thoresen
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5389842?pdf=render
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spelling doaj-65fc36c8c0624d4b98bee9d90c7fbbda2020-11-25T01:22:52ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-01124e017544110.1371/journal.pone.0175441Exercise in vivo marks human myotubes in vitro: Training-induced increase in lipid metabolism.Jenny LundArild C RustanNils G LøvslettenJonathan M MudryTorgrim M LangleiteYuan Z FengCamilla StensrudMari G BrubakChristian A DrevonKåre I BirkelandKristoffer J KolnesEgil I JohansenDaniel S TangenHans K StadheimHanne L GulsethAnna KrookEili T KaseJørgen JensenG Hege ThoresenBACKGROUND AND AIMS:Physical activity has preventive as well as therapeutic benefits for overweight subjects. In this study we aimed to examine effects of in vivo exercise on in vitro metabolic adaptations by studying energy metabolism in cultured myotubes isolated from biopsies taken before and after 12 weeks of extensive endurance and strength training, from healthy sedentary normal weight and overweight men. METHODS:Healthy sedentary men, aged 40-62 years, with normal weight (body mass index (BMI) < 25 kg/m2) or overweight (BMI ≥ 25 kg/m2) were included. Fatty acid and glucose metabolism were studied in myotubes using [14C]oleic acid and [14C]glucose, respectively. Gene and protein expressions, as well as DNA methylation were measured for selected genes. RESULTS:The 12-week training intervention improved endurance, strength and insulin sensitivity in vivo, and reduced the participants' body weight. Biopsy-derived cultured human myotubes after exercise showed increased total cellular oleic acid uptake (30%), oxidation (46%) and lipid accumulation (34%), as well as increased fractional glucose oxidation (14%) compared to cultures established prior to exercise. Most of these exercise-induced increases were significant in the overweight group, whereas the normal weight group showed no change in oleic acid or glucose metabolism. CONCLUSIONS:12 weeks of combined endurance and strength training promoted increased lipid and glucose metabolism in biopsy-derived cultured human myotubes, showing that training in vivo are able to induce changes in human myotubes that are discernible in vitro.http://europepmc.org/articles/PMC5389842?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Jenny Lund
Arild C Rustan
Nils G Løvsletten
Jonathan M Mudry
Torgrim M Langleite
Yuan Z Feng
Camilla Stensrud
Mari G Brubak
Christian A Drevon
Kåre I Birkeland
Kristoffer J Kolnes
Egil I Johansen
Daniel S Tangen
Hans K Stadheim
Hanne L Gulseth
Anna Krook
Eili T Kase
Jørgen Jensen
G Hege Thoresen
spellingShingle Jenny Lund
Arild C Rustan
Nils G Løvsletten
Jonathan M Mudry
Torgrim M Langleite
Yuan Z Feng
Camilla Stensrud
Mari G Brubak
Christian A Drevon
Kåre I Birkeland
Kristoffer J Kolnes
Egil I Johansen
Daniel S Tangen
Hans K Stadheim
Hanne L Gulseth
Anna Krook
Eili T Kase
Jørgen Jensen
G Hege Thoresen
Exercise in vivo marks human myotubes in vitro: Training-induced increase in lipid metabolism.
PLoS ONE
author_facet Jenny Lund
Arild C Rustan
Nils G Løvsletten
Jonathan M Mudry
Torgrim M Langleite
Yuan Z Feng
Camilla Stensrud
Mari G Brubak
Christian A Drevon
Kåre I Birkeland
Kristoffer J Kolnes
Egil I Johansen
Daniel S Tangen
Hans K Stadheim
Hanne L Gulseth
Anna Krook
Eili T Kase
Jørgen Jensen
G Hege Thoresen
author_sort Jenny Lund
title Exercise in vivo marks human myotubes in vitro: Training-induced increase in lipid metabolism.
title_short Exercise in vivo marks human myotubes in vitro: Training-induced increase in lipid metabolism.
title_full Exercise in vivo marks human myotubes in vitro: Training-induced increase in lipid metabolism.
title_fullStr Exercise in vivo marks human myotubes in vitro: Training-induced increase in lipid metabolism.
title_full_unstemmed Exercise in vivo marks human myotubes in vitro: Training-induced increase in lipid metabolism.
title_sort exercise in vivo marks human myotubes in vitro: training-induced increase in lipid metabolism.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description BACKGROUND AND AIMS:Physical activity has preventive as well as therapeutic benefits for overweight subjects. In this study we aimed to examine effects of in vivo exercise on in vitro metabolic adaptations by studying energy metabolism in cultured myotubes isolated from biopsies taken before and after 12 weeks of extensive endurance and strength training, from healthy sedentary normal weight and overweight men. METHODS:Healthy sedentary men, aged 40-62 years, with normal weight (body mass index (BMI) < 25 kg/m2) or overweight (BMI ≥ 25 kg/m2) were included. Fatty acid and glucose metabolism were studied in myotubes using [14C]oleic acid and [14C]glucose, respectively. Gene and protein expressions, as well as DNA methylation were measured for selected genes. RESULTS:The 12-week training intervention improved endurance, strength and insulin sensitivity in vivo, and reduced the participants' body weight. Biopsy-derived cultured human myotubes after exercise showed increased total cellular oleic acid uptake (30%), oxidation (46%) and lipid accumulation (34%), as well as increased fractional glucose oxidation (14%) compared to cultures established prior to exercise. Most of these exercise-induced increases were significant in the overweight group, whereas the normal weight group showed no change in oleic acid or glucose metabolism. CONCLUSIONS:12 weeks of combined endurance and strength training promoted increased lipid and glucose metabolism in biopsy-derived cultured human myotubes, showing that training in vivo are able to induce changes in human myotubes that are discernible in vitro.
url http://europepmc.org/articles/PMC5389842?pdf=render
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