Diet and exercise reduce pre-existing NASH and fibrosis and have additional beneficial effects on the vasculature, adipose tissue and skeletal muscle via organ-crosstalk

Diet and exercise reduce pre-existing NASH and fibrosis and have additional beneficial effects on the vasculature, adipose tissue and skeletal muscle via organ-crosstalk

Background: Non-alcoholic steatohepatitis (NASH) has become one of the most common liver diseases and is still without approved pharmacotherapy. Lifestyle interventions using exercise and diet change remain the current treatment of choice and even a small weight loss (5–7%) can already have a beneficial effect on NASH. However, the underlying molecular mechanisms of exercise and diet interventions remain largely elusive, and it is unclear whether they exert their health effects via similar or different pathways. Methods: Ldlr−/−.Leiden mice received a high fat diet (HFD) for 30 weeks to establish a severe state of NASH/fibrosis with simultaneous atherosclerosis development. Groups of mice were then either left untreated (control group) or were treated for 20 weeks with exercise (running wheel), diet change (switch to a low fat chow diet) or the combination thereof. The liver and distant organs including heart, white adipose tissue (WAT) and muscle were histologically examined. Comprehensive transcriptome analysis of liver, WAT and muscle revealed the organ-specific effects of exercise and diet and defined the underlying pathways. Results: Exercise and dietary change significantly reduced body weight, fat mass, adipocyte size and improved myosteatosis and muscle function with additive effects of combination treatment. WAT inflammation was significantly improved by diet change, tended to be reduced with exercise, and combination therapy had no additive effect. Hepatic steatosis and inflammation were almost fully reversed by exercise and diet change, while hepatic fibrosis tended to be improved with exercise and was significantly improved with diet change. Additive effects for the combination therapy were shown for liver steatosis and associated liver lipids, and atherosclerosis, but not for hepatic inflammation and fibrosis. Pathway analysis revealed complementary effects on metabolic pathways and lipid handling processes, thereby substantiating the added value of combined lifestyle treatment. Conclusions: Exercise, diet change and the combination thereof can reverse established NASH/fibrosis in obese Ldlr−/−.Leiden mice. In addition, the lifestyle interventions had beneficial effects on atherosclerosis, WAT inflammation and muscle function. For steatosis and other parameters related to adiposity or lipid metabolism, exercise and dietary change affected more distinct pathways that acted complementary when the interventions were combined resulting in an additive effect for the combination therapy on important endpoints including NASH and atherosclerosis. For inflammation, exercise and diet change shared several underlying pathways resulting in a net similar effect when the interventions were combined.

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Main Authors: van den Hoek, Anita M., de Jong, Jelle C.B.C., Worms, Nicole, van Nieuwkoop, Anita, Voskuilen, Marijke, Menke, Aswin L., Lek, Serene, Caspers, Martien P.M., Verschuren, Lars, Kleemann, Robert
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Atherosclerosis, Fibrosis, Lifestyle interventions, Muscle-liver axis, NAFLD, WAT-liver axis,
Online Access:https://research.wur.nl/en/publications/diet-and-exercise-reduce-pre-existing-nash-and-fibrosis-and-have-
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spelling dig-wur-nl-wurpubs-5870092024-12-04 van den Hoek, Anita M. de Jong, Jelle C.B.C. Worms, Nicole van Nieuwkoop, Anita Voskuilen, Marijke Menke, Aswin L. Lek, Serene Caspers, Martien P.M. Verschuren, Lars Kleemann, Robert Article/Letter to editor Metabolism: Clinical and Experimental 124 (2021) ISSN: 0026-0495 Diet and exercise reduce pre-existing NASH and fibrosis and have additional beneficial effects on the vasculature, adipose tissue and skeletal muscle via organ-crosstalk 2021 Background: Non-alcoholic steatohepatitis (NASH) has become one of the most common liver diseases and is still without approved pharmacotherapy. Lifestyle interventions using exercise and diet change remain the current treatment of choice and even a small weight loss (5–7%) can already have a beneficial effect on NASH. However, the underlying molecular mechanisms of exercise and diet interventions remain largely elusive, and it is unclear whether they exert their health effects via similar or different pathways. Methods: Ldlr−/−.Leiden mice received a high fat diet (HFD) for 30 weeks to establish a severe state of NASH/fibrosis with simultaneous atherosclerosis development. Groups of mice were then either left untreated (control group) or were treated for 20 weeks with exercise (running wheel), diet change (switch to a low fat chow diet) or the combination thereof. The liver and distant organs including heart, white adipose tissue (WAT) and muscle were histologically examined. Comprehensive transcriptome analysis of liver, WAT and muscle revealed the organ-specific effects of exercise and diet and defined the underlying pathways. Results: Exercise and dietary change significantly reduced body weight, fat mass, adipocyte size and improved myosteatosis and muscle function with additive effects of combination treatment. WAT inflammation was significantly improved by diet change, tended to be reduced with exercise, and combination therapy had no additive effect. Hepatic steatosis and inflammation were almost fully reversed by exercise and diet change, while hepatic fibrosis tended to be improved with exercise and was significantly improved with diet change. Additive effects for the combination therapy were shown for liver steatosis and associated liver lipids, and atherosclerosis, but not for hepatic inflammation and fibrosis. Pathway analysis revealed complementary effects on metabolic pathways and lipid handling processes, thereby substantiating the added value of combined lifestyle treatment. Conclusions: Exercise, diet change and the combination thereof can reverse established NASH/fibrosis in obese Ldlr−/−.Leiden mice. In addition, the lifestyle interventions had beneficial effects on atherosclerosis, WAT inflammation and muscle function. For steatosis and other parameters related to adiposity or lipid metabolism, exercise and dietary change affected more distinct pathways that acted complementary when the interventions were combined resulting in an additive effect for the combination therapy on important endpoints including NASH and atherosclerosis. For inflammation, exercise and diet change shared several underlying pathways resulting in a net similar effect when the interventions were combined. en application/pdf https://research.wur.nl/en/publications/diet-and-exercise-reduce-pre-existing-nash-and-fibrosis-and-have- 10.1016/j.metabol.2021.154873 https://edepot.wur.nl/553879 Atherosclerosis Fibrosis Lifestyle interventions Muscle-liver axis NAFLD WAT-liver axis https://creativecommons.org/licenses/by-nc-nd/4.0/ https://creativecommons.org/licenses/by-nc-nd/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Atherosclerosis
Fibrosis
Lifestyle interventions
Muscle-liver axis
NAFLD
WAT-liver axis
Atherosclerosis
Fibrosis
Lifestyle interventions
Muscle-liver axis
NAFLD
WAT-liver axis
spellingShingle Atherosclerosis
Fibrosis
Lifestyle interventions
Muscle-liver axis
NAFLD
WAT-liver axis
Atherosclerosis
Fibrosis
Lifestyle interventions
Muscle-liver axis
NAFLD
WAT-liver axis
van den Hoek, Anita M.
de Jong, Jelle C.B.C.
Worms, Nicole
van Nieuwkoop, Anita
Voskuilen, Marijke
Menke, Aswin L.
Lek, Serene
Caspers, Martien P.M.
Verschuren, Lars
Kleemann, Robert
Diet and exercise reduce pre-existing NASH and fibrosis and have additional beneficial effects on the vasculature, adipose tissue and skeletal muscle via organ-crosstalk
description Background: Non-alcoholic steatohepatitis (NASH) has become one of the most common liver diseases and is still without approved pharmacotherapy. Lifestyle interventions using exercise and diet change remain the current treatment of choice and even a small weight loss (5–7%) can already have a beneficial effect on NASH. However, the underlying molecular mechanisms of exercise and diet interventions remain largely elusive, and it is unclear whether they exert their health effects via similar or different pathways. Methods: Ldlr−/−.Leiden mice received a high fat diet (HFD) for 30 weeks to establish a severe state of NASH/fibrosis with simultaneous atherosclerosis development. Groups of mice were then either left untreated (control group) or were treated for 20 weeks with exercise (running wheel), diet change (switch to a low fat chow diet) or the combination thereof. The liver and distant organs including heart, white adipose tissue (WAT) and muscle were histologically examined. Comprehensive transcriptome analysis of liver, WAT and muscle revealed the organ-specific effects of exercise and diet and defined the underlying pathways. Results: Exercise and dietary change significantly reduced body weight, fat mass, adipocyte size and improved myosteatosis and muscle function with additive effects of combination treatment. WAT inflammation was significantly improved by diet change, tended to be reduced with exercise, and combination therapy had no additive effect. Hepatic steatosis and inflammation were almost fully reversed by exercise and diet change, while hepatic fibrosis tended to be improved with exercise and was significantly improved with diet change. Additive effects for the combination therapy were shown for liver steatosis and associated liver lipids, and atherosclerosis, but not for hepatic inflammation and fibrosis. Pathway analysis revealed complementary effects on metabolic pathways and lipid handling processes, thereby substantiating the added value of combined lifestyle treatment. Conclusions: Exercise, diet change and the combination thereof can reverse established NASH/fibrosis in obese Ldlr−/−.Leiden mice. In addition, the lifestyle interventions had beneficial effects on atherosclerosis, WAT inflammation and muscle function. For steatosis and other parameters related to adiposity or lipid metabolism, exercise and dietary change affected more distinct pathways that acted complementary when the interventions were combined resulting in an additive effect for the combination therapy on important endpoints including NASH and atherosclerosis. For inflammation, exercise and diet change shared several underlying pathways resulting in a net similar effect when the interventions were combined.
format Article/Letter to editor
topic_facet Atherosclerosis
Fibrosis
Lifestyle interventions
Muscle-liver axis
NAFLD
WAT-liver axis
author van den Hoek, Anita M.
de Jong, Jelle C.B.C.
Worms, Nicole
van Nieuwkoop, Anita
Voskuilen, Marijke
Menke, Aswin L.
Lek, Serene
Caspers, Martien P.M.
Verschuren, Lars
Kleemann, Robert
author_facet van den Hoek, Anita M.
de Jong, Jelle C.B.C.
Worms, Nicole
van Nieuwkoop, Anita
Voskuilen, Marijke
Menke, Aswin L.
Lek, Serene
Caspers, Martien P.M.
Verschuren, Lars
Kleemann, Robert
author_sort van den Hoek, Anita M.
title Diet and exercise reduce pre-existing NASH and fibrosis and have additional beneficial effects on the vasculature, adipose tissue and skeletal muscle via organ-crosstalk
title_short Diet and exercise reduce pre-existing NASH and fibrosis and have additional beneficial effects on the vasculature, adipose tissue and skeletal muscle via organ-crosstalk
title_full Diet and exercise reduce pre-existing NASH and fibrosis and have additional beneficial effects on the vasculature, adipose tissue and skeletal muscle via organ-crosstalk
title_fullStr Diet and exercise reduce pre-existing NASH and fibrosis and have additional beneficial effects on the vasculature, adipose tissue and skeletal muscle via organ-crosstalk
title_full_unstemmed Diet and exercise reduce pre-existing NASH and fibrosis and have additional beneficial effects on the vasculature, adipose tissue and skeletal muscle via organ-crosstalk
title_sort diet and exercise reduce pre-existing nash and fibrosis and have additional beneficial effects on the vasculature, adipose tissue and skeletal muscle via organ-crosstalk
url https://research.wur.nl/en/publications/diet-and-exercise-reduce-pre-existing-nash-and-fibrosis-and-have-
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