Post-exercise Effects and Long-Term Training Adaptations of Hormone Sensitive Lipase Lipolysis Induced by High-Intensity Interval Training in Adipose Tissue of Mice

Post-exercise Effects and Long-Term Training Adaptations of Hormone Sensitive Lipase Lipolysis Induced by High-Intensity Interval Training in Adipose Tissue of Mice

Although studies have proven that high-intensity interval training (HIIT) shows a comparable effect to moderate-intensity continuous training (MICT) on reducing body fat, especially visceral fat, the mechanism is still unclear. Since MICT consumes more fat during exercise, the mechanism of HIIT weig...

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Main Authors: Yang Liu, Gaofang Dong, Xiaobo Zhao, Zerong Huang, Peng Li, Haifeng Zhang
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-11-01
Series:Frontiers in Physiology
Subjects:
high-intensity interval training
catecholamine
long-term adaptations
post-exercise effects
lipolysis
hormone-sensitive triglyceride lipase
Online Access:https://www.frontiersin.org/articles/10.3389/fphys.2020.535722/full
id doaj-9527c034efee41cfa1f25bfa84c25834
record_format Article
collection DOAJ
language English
format Article
sources DOAJ
author Yang Liu
Yang Liu
Gaofang Dong
Gaofang Dong
Xiaobo Zhao
Xiaobo Zhao
Zerong Huang
Zerong Huang
Peng Li
Peng Li
Haifeng Zhang
Haifeng Zhang
spellingShingle Yang Liu
Yang Liu
Gaofang Dong
Gaofang Dong
Xiaobo Zhao
Xiaobo Zhao
Zerong Huang
Zerong Huang
Peng Li
Peng Li
Haifeng Zhang
Haifeng Zhang
Post-exercise Effects and Long-Term Training Adaptations of Hormone Sensitive Lipase Lipolysis Induced by High-Intensity Interval Training in Adipose Tissue of Mice
Frontiers in Physiology
high-intensity interval training
catecholamine
long-term adaptations
post-exercise effects
lipolysis
hormone-sensitive triglyceride lipase
author_facet Yang Liu
Yang Liu
Gaofang Dong
Gaofang Dong
Xiaobo Zhao
Xiaobo Zhao
Zerong Huang
Zerong Huang
Peng Li
Peng Li
Haifeng Zhang
Haifeng Zhang
author_sort Yang Liu
title Post-exercise Effects and Long-Term Training Adaptations of Hormone Sensitive Lipase Lipolysis Induced by High-Intensity Interval Training in Adipose Tissue of Mice
title_short Post-exercise Effects and Long-Term Training Adaptations of Hormone Sensitive Lipase Lipolysis Induced by High-Intensity Interval Training in Adipose Tissue of Mice
title_full Post-exercise Effects and Long-Term Training Adaptations of Hormone Sensitive Lipase Lipolysis Induced by High-Intensity Interval Training in Adipose Tissue of Mice
title_fullStr Post-exercise Effects and Long-Term Training Adaptations of Hormone Sensitive Lipase Lipolysis Induced by High-Intensity Interval Training in Adipose Tissue of Mice
title_full_unstemmed Post-exercise Effects and Long-Term Training Adaptations of Hormone Sensitive Lipase Lipolysis Induced by High-Intensity Interval Training in Adipose Tissue of Mice
title_sort post-exercise effects and long-term training adaptations of hormone sensitive lipase lipolysis induced by high-intensity interval training in adipose tissue of mice
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2020-11-01
description Although studies have proven that high-intensity interval training (HIIT) shows a comparable effect to moderate-intensity continuous training (MICT) on reducing body fat, especially visceral fat, the mechanism is still unclear. Since MICT consumes more fat during exercise, the mechanism of HIIT weight loss may be related to post-exercise effects, long-term adaptive changes, and hormone sensitive lipase (HSL). The objective of this study was to compare the post-effects of acute exercise, long-term adaptive changes on HSL activity, and catecholamine-induced lipolysis between HIIT and MICT. Following a 14-week high-fat diet (HFD), obese female C57Bl/6 mice were divided into acute exercise groups (one time training, sacrificed at rest and 0, 1, and 12 h after exercise, n = 49), -L groups (12-week long-term training, 12-h fasting, n = 21), and -C groups (12-week training, primary adipocytes were isolated and stimulated by catecholamine in vitro, n = 18). MICT or HIIT treadmill protocols (running distance matched) were carried out during training. Comparison of acute exercise effects by two-way ANOVA showed no time × group interaction effect, however, a significant increase in HSL-Ser563 (at 0 and 1 h) and Ser660 phosphorylation (at 0, 1, and 12 h) in inguinal (subcutaneous) fat was only observed in HIIT mice (p < 0.05 vs. rest), but not in MICT mice. The periuterine (visceral) fat HSL expression and phosphorylation of HIIT mice was similar to or lower than MICT mice. After long-term training, 12-h fasting significantly increased periuterine fat Ser563 phosphorylation in HIIT mice (p < 0.05), but there was no change in MICT mice. Under stimulation of catecholamine in vitro, isolated primary adipocytes from periuterine fat of long-term HIIT mice showed a higher Ser563 increase than that found in MICT mice (p < 0.05). The quantity of triglyceride (TG) lipid bonds (representing lipolysis level) was significantly lower after HIIT than MICT (p < 0.05). The results indicate that (1) acute HIIT can induce an increase of HSL phosphorylation in subcutaneous fat lasting at least 12 h, implying longer post-exercise lipolysis than MICT and (2) long-time HIIT has a better effect on improving catecholamine resistance of visceral adipocytes caused by a HFD, which allows fat to be mobilized more easily when stimulated.
topic high-intensity interval training
catecholamine
long-term adaptations
post-exercise effects
lipolysis
hormone-sensitive triglyceride lipase
url https://www.frontiersin.org/articles/10.3389/fphys.2020.535722/full
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spelling doaj-9527c034efee41cfa1f25bfa84c258342020-12-08T08:43:13ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2020-11-011110.3389/fphys.2020.535722535722Post-exercise Effects and Long-Term Training Adaptations of Hormone Sensitive Lipase Lipolysis Induced by High-Intensity Interval Training in Adipose Tissue of MiceYang Liu0Yang Liu1Gaofang Dong2Gaofang Dong3Xiaobo Zhao4Xiaobo Zhao5Zerong Huang6Zerong Huang7Peng Li8Peng Li9Haifeng Zhang10Haifeng Zhang11Physical Education College, Hebei Normal University, Shijiazhuang, ChinaProvincial Key Lab of Measurement and Evaluation in Human Movement and Bio-Information, Hebei Normal University, Shijiazhuang, ChinaPhysical Education College, Hebei Normal University, Shijiazhuang, ChinaProvincial Key Lab of Measurement and Evaluation in Human Movement and Bio-Information, Hebei Normal University, Shijiazhuang, ChinaPhysical Education College, Hebei Normal University, Shijiazhuang, ChinaProvincial Key Lab of Measurement and Evaluation in Human Movement and Bio-Information, Hebei Normal University, Shijiazhuang, ChinaPhysical Education College, Hebei Normal University, Shijiazhuang, ChinaProvincial Key Lab of Measurement and Evaluation in Human Movement and Bio-Information, Hebei Normal University, Shijiazhuang, ChinaPhysical Education College, Hebei Normal University, Shijiazhuang, ChinaProvincial Key Lab of Measurement and Evaluation in Human Movement and Bio-Information, Hebei Normal University, Shijiazhuang, ChinaPhysical Education College, Hebei Normal University, Shijiazhuang, ChinaProvincial Key Lab of Measurement and Evaluation in Human Movement and Bio-Information, Hebei Normal University, Shijiazhuang, ChinaAlthough studies have proven that high-intensity interval training (HIIT) shows a comparable effect to moderate-intensity continuous training (MICT) on reducing body fat, especially visceral fat, the mechanism is still unclear. Since MICT consumes more fat during exercise, the mechanism of HIIT weight loss may be related to post-exercise effects, long-term adaptive changes, and hormone sensitive lipase (HSL). The objective of this study was to compare the post-effects of acute exercise, long-term adaptive changes on HSL activity, and catecholamine-induced lipolysis between HIIT and MICT. Following a 14-week high-fat diet (HFD), obese female C57Bl/6 mice were divided into acute exercise groups (one time training, sacrificed at rest and 0, 1, and 12 h after exercise, n = 49), -L groups (12-week long-term training, 12-h fasting, n = 21), and -C groups (12-week training, primary adipocytes were isolated and stimulated by catecholamine in vitro, n = 18). MICT or HIIT treadmill protocols (running distance matched) were carried out during training. Comparison of acute exercise effects by two-way ANOVA showed no time × group interaction effect, however, a significant increase in HSL-Ser563 (at 0 and 1 h) and Ser660 phosphorylation (at 0, 1, and 12 h) in inguinal (subcutaneous) fat was only observed in HIIT mice (p < 0.05 vs. rest), but not in MICT mice. The periuterine (visceral) fat HSL expression and phosphorylation of HIIT mice was similar to or lower than MICT mice. After long-term training, 12-h fasting significantly increased periuterine fat Ser563 phosphorylation in HIIT mice (p < 0.05), but there was no change in MICT mice. Under stimulation of catecholamine in vitro, isolated primary adipocytes from periuterine fat of long-term HIIT mice showed a higher Ser563 increase than that found in MICT mice (p < 0.05). The quantity of triglyceride (TG) lipid bonds (representing lipolysis level) was significantly lower after HIIT than MICT (p < 0.05). The results indicate that (1) acute HIIT can induce an increase of HSL phosphorylation in subcutaneous fat lasting at least 12 h, implying longer post-exercise lipolysis than MICT and (2) long-time HIIT has a better effect on improving catecholamine resistance of visceral adipocytes caused by a HFD, which allows fat to be mobilized more easily when stimulated.https://www.frontiersin.org/articles/10.3389/fphys.2020.535722/fullhigh-intensity interval trainingcatecholaminelong-term adaptationspost-exercise effectslipolysishormone-sensitive triglyceride lipase

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