DGAT1 deficiency decreases PPAR expression and does not lead to lipotoxicity in cardiac and skeletal muscle[S]

DGAT1 deficiency decreases PPAR expression and does not lead to lipotoxicity in cardiac and skeletal muscle[S]

Diacylglycerol (DAG) acyl transferase 1 (Dgat1) knockout (−/−) mice are resistant to high-fat-induced obesity and insulin resistance, but the reasons are unclear. Dgat1−/− mice had reduced mRNA levels of all three Ppar genes and genes involved in fatty acid oxidation in the myocardium of Dgat1−/− mi...

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Main Authors: Li Liu, Shuiqing Yu, Raffay S. Khan, Gene P. Ables, Kalyani G. Bharadwaj, Yunying Hu, Lesley A. Huggins, Jan W. Eriksson, Linda K. Buckett, Andrew V. Turnbull, Henry N. Ginsberg, William S. Blaner, Li-Shin Huang, Ira J. Goldberg
Format: Article
Language:English
Published: Elsevier 2011-04-01
Series:Journal of Lipid Research
Subjects:
heart
triglyceride
diacylglycerol acyl transferase
ceramide
exercise
muscle hypertrophy
Online Access:http://www.sciencedirect.com/science/article/pii/S0022227520409071
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spelling doaj-28b9b4fb4e8e4a7880d03b89710adc642021-04-28T06:03:38ZengElsevierJournal of Lipid Research0022-22752011-04-01524732744DGAT1 deficiency decreases PPAR expression and does not lead to lipotoxicity in cardiac and skeletal muscle[S]Li Liu0Shuiqing Yu1Raffay S. Khan2Gene P. Ables3Kalyani G. Bharadwaj4Yunying Hu5Lesley A. Huggins6Jan W. Eriksson7Linda K. Buckett8Andrew V. Turnbull9Henry N. Ginsberg10William S. Blaner11Li-Shin Huang12Ira J. Goldberg13Division of Preventive Medicine and Nutrition, Columbia University, New York, NYDivision of Preventive Medicine and Nutrition, Columbia University, New York, NYDivision of Preventive Medicine and Nutrition, Columbia University, New York, NYDivision of Preventive Medicine and Nutrition, Columbia University, New York, NYDivision of Preventive Medicine and Nutrition, Columbia University, New York, NYDivision of Preventive Medicine and Nutrition, Columbia University, New York, NYDivision of Preventive Medicine and Nutrition, Columbia University, New York, NYDepartment of Molecular and Clinical Medicine, University of Gothenburg, Gothenburg, Sweden;; AstraZeneca R&D, Mölndal, SwedenAstraZeneca R&D, Macclesfield, UKAstraZeneca R&D, Macclesfield, UKDivision of Preventive Medicine and Nutrition, Columbia University, New York, NYDivision of Preventive Medicine and Nutrition, Columbia University, New York, NYDivision of Preventive Medicine and Nutrition, Columbia University, New York, NYTo whom correspondence should be addressed. ijg3@columbia.edu; Division of Preventive Medicine and Nutrition, Columbia University, New York, NY; To whom correspondence should be addressed. ijg3@columbia.eduDiacylglycerol (DAG) acyl transferase 1 (Dgat1) knockout (−/−) mice are resistant to high-fat-induced obesity and insulin resistance, but the reasons are unclear. Dgat1−/− mice had reduced mRNA levels of all three Ppar genes and genes involved in fatty acid oxidation in the myocardium of Dgat1−/− mice. Although DGAT1 converts DAG to triglyceride (TG), tissue levels of DAG were not increased in Dgat1−/− mice. Hearts of chow-diet Dgat1−/− mice were larger than those of wild-type (WT) mice, but cardiac function was normal. Skeletal muscles from Dgat1−/− mice were also larger. Muscle hypertrophy factors phospho-AKT and phospho-mTOR were increased in Dgat1−/− cardiac and skeletal muscle. In contrast to muscle, liver from Dgat1−/− mice had no reduction in mRNA levels of genes mediating fatty acid oxidation. Glucose uptake was increased in cardiac and skeletal muscle in Dgat1−/− mice. Treatment with an inhibitor specific for DGAT1 led to similarly striking reductions in mRNA levels of genes mediating fatty acid oxidation in cardiac and skeletal muscle. These changes were reproduced in cultured myocytes with the DGAT1 inhibitor, which also blocked the increase in mRNA levels of Ppar genes and their targets induced by palmitic acid. Thus, loss of DGAT1 activity in muscles decreases mRNA levels of genes involved in lipid uptake and oxidation.http://www.sciencedirect.com/science/article/pii/S0022227520409071hearttriglyceridediacylglycerol acyl transferaseceramideexercisemuscle hypertrophy
collection DOAJ
language English
format Article
sources DOAJ
author Li Liu
Shuiqing Yu
Raffay S. Khan
Gene P. Ables
Kalyani G. Bharadwaj
Yunying Hu
Lesley A. Huggins
Jan W. Eriksson
Linda K. Buckett
Andrew V. Turnbull
Henry N. Ginsberg
William S. Blaner
Li-Shin Huang
Ira J. Goldberg
spellingShingle Li Liu
Shuiqing Yu
Raffay S. Khan
Gene P. Ables
Kalyani G. Bharadwaj
Yunying Hu
Lesley A. Huggins
Jan W. Eriksson
Linda K. Buckett
Andrew V. Turnbull
Henry N. Ginsberg
William S. Blaner
Li-Shin Huang
Ira J. Goldberg
DGAT1 deficiency decreases PPAR expression and does not lead to lipotoxicity in cardiac and skeletal muscle[S]
Journal of Lipid Research
heart
triglyceride
diacylglycerol acyl transferase
ceramide
exercise
muscle hypertrophy
author_facet Li Liu
Shuiqing Yu
Raffay S. Khan
Gene P. Ables
Kalyani G. Bharadwaj
Yunying Hu
Lesley A. Huggins
Jan W. Eriksson
Linda K. Buckett
Andrew V. Turnbull
Henry N. Ginsberg
William S. Blaner
Li-Shin Huang
Ira J. Goldberg
author_sort Li Liu
title DGAT1 deficiency decreases PPAR expression and does not lead to lipotoxicity in cardiac and skeletal muscle[S]
title_short DGAT1 deficiency decreases PPAR expression and does not lead to lipotoxicity in cardiac and skeletal muscle[S]
title_full DGAT1 deficiency decreases PPAR expression and does not lead to lipotoxicity in cardiac and skeletal muscle[S]
title_fullStr DGAT1 deficiency decreases PPAR expression and does not lead to lipotoxicity in cardiac and skeletal muscle[S]
title_full_unstemmed DGAT1 deficiency decreases PPAR expression and does not lead to lipotoxicity in cardiac and skeletal muscle[S]
title_sort dgat1 deficiency decreases ppar expression and does not lead to lipotoxicity in cardiac and skeletal muscle[s]
publisher Elsevier
series Journal of Lipid Research
issn 0022-2275
publishDate 2011-04-01
description Diacylglycerol (DAG) acyl transferase 1 (Dgat1) knockout (−/−) mice are resistant to high-fat-induced obesity and insulin resistance, but the reasons are unclear. Dgat1−/− mice had reduced mRNA levels of all three Ppar genes and genes involved in fatty acid oxidation in the myocardium of Dgat1−/− mice. Although DGAT1 converts DAG to triglyceride (TG), tissue levels of DAG were not increased in Dgat1−/− mice. Hearts of chow-diet Dgat1−/− mice were larger than those of wild-type (WT) mice, but cardiac function was normal. Skeletal muscles from Dgat1−/− mice were also larger. Muscle hypertrophy factors phospho-AKT and phospho-mTOR were increased in Dgat1−/− cardiac and skeletal muscle. In contrast to muscle, liver from Dgat1−/− mice had no reduction in mRNA levels of genes mediating fatty acid oxidation. Glucose uptake was increased in cardiac and skeletal muscle in Dgat1−/− mice. Treatment with an inhibitor specific for DGAT1 led to similarly striking reductions in mRNA levels of genes mediating fatty acid oxidation in cardiac and skeletal muscle. These changes were reproduced in cultured myocytes with the DGAT1 inhibitor, which also blocked the increase in mRNA levels of Ppar genes and their targets induced by palmitic acid. Thus, loss of DGAT1 activity in muscles decreases mRNA levels of genes involved in lipid uptake and oxidation.
topic heart
triglyceride
diacylglycerol acyl transferase
ceramide
exercise
muscle hypertrophy
url http://www.sciencedirect.com/science/article/pii/S0022227520409071
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