Mitochondrial biogenesis is decreased in skeletal muscle of pig fetuses exposed to maternal high-energy diets

Mitochondrial biogenesis is decreased in skeletal muscle of pig fetuses exposed to maternal high-energy diets

Mitochondria plays an important role in the regulation of energy homeostasis. Moreover, mitochondrial biogenesis accompanies skeletal myogenesis, and we previously reported that maternal high-energy diet repressed skeletal myogenesis in pig fetuses. Therefore, the aim of this study was to evaluate t...

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Main Authors: T.D. Zou, B. Yu, J. Yu, X.B. Mao, P. Zheng, J. He, Z.Q. Huang, D.T. He, D.W. Chen
Format: Article
Language:English
Published: Elsevier 2017-01-01
Series:Animal
Subjects:
energy intake
gestation
skeletal muscle
fetus
mitochondrial biogenesis
Online Access:http://www.sciencedirect.com/science/article/pii/S1751731116001269
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spelling doaj-742b024dc33241de8d025db68e7b77fb2021-06-06T04:52:29ZengElsevierAnimal1751-73112017-01-011115460Mitochondrial biogenesis is decreased in skeletal muscle of pig fetuses exposed to maternal high-energy dietsT.D. Zou0B. Yu1J. Yu2X.B. Mao3P. Zheng4J. He5Z.Q. Huang6D.T. He7D.W. Chen8Key Laboratory for Animal Disease-Resistant Nutrition of the Ministry of Education of China, Animal Nutrition Institute, Sichuan Agricultural University, Cheng du, Sichuan 611130, ChinaKey Laboratory for Animal Disease-Resistant Nutrition of the Ministry of Education of China, Animal Nutrition Institute, Sichuan Agricultural University, Cheng du, Sichuan 611130, ChinaKey Laboratory for Animal Disease-Resistant Nutrition of the Ministry of Education of China, Animal Nutrition Institute, Sichuan Agricultural University, Cheng du, Sichuan 611130, ChinaKey Laboratory for Animal Disease-Resistant Nutrition of the Ministry of Education of China, Animal Nutrition Institute, Sichuan Agricultural University, Cheng du, Sichuan 611130, ChinaKey Laboratory for Animal Disease-Resistant Nutrition of the Ministry of Education of China, Animal Nutrition Institute, Sichuan Agricultural University, Cheng du, Sichuan 611130, ChinaKey Laboratory for Animal Disease-Resistant Nutrition of the Ministry of Education of China, Animal Nutrition Institute, Sichuan Agricultural University, Cheng du, Sichuan 611130, ChinaKey Laboratory for Animal Disease-Resistant Nutrition of the Ministry of Education of China, Animal Nutrition Institute, Sichuan Agricultural University, Cheng du, Sichuan 611130, ChinaKey Laboratory for Animal Disease-Resistant Nutrition of the Ministry of Education of China, Animal Nutrition Institute, Sichuan Agricultural University, Cheng du, Sichuan 611130, ChinaKey Laboratory for Animal Disease-Resistant Nutrition of the Ministry of Education of China, Animal Nutrition Institute, Sichuan Agricultural University, Cheng du, Sichuan 611130, ChinaMitochondria plays an important role in the regulation of energy homeostasis. Moreover, mitochondrial biogenesis accompanies skeletal myogenesis, and we previously reported that maternal high-energy diet repressed skeletal myogenesis in pig fetuses. Therefore, the aim of this study was to evaluate the effects of moderately increased maternal energy intake on skeletal muscle mitochondrial biogenesis and function of the pig fetuses. Primiparous purebred Large White sows were allocated to a normal energy intake group (NE) as recommended by the National Research Council (NRC) and a high energy intake group (HE, 110% of NRC recommendations). On day 90 of gestation, fetal umbilical vein blood and longissimus (LM) muscle were collected. Results showed that the weight gain of sows fed HE diet was higher than NE sows on day 90 of gestation (P<0.05). Maternal HE diet increased fetal umbilical vein serum triglyceride and insulin concentrations (P<0.05), and tended to increase the homeostasis model assessment index (P=0.08). Furthermore, HE fetuses exhibited increased malondialdehyde concentration (P<0.05), and decreased activities of antioxidative enzymes (P<0.05) and intracellular NAD+ level (P<0.05) in LM muscle. These alterations in metabolic traits of HE fetuses were accompanied by reduced mitochondrial DNA amount (P<0.05) and down-regulated messenger RNA expression levels of genes responsible for mitochondrial biogenesis and function (P<0.05). Our results suggest that moderately increased energy supply during gestation decreases mitochondrial biogenesis, function and antioxidative capacity in skeletal muscle of pig fetuses.http://www.sciencedirect.com/science/article/pii/S1751731116001269energy intakegestationskeletal musclefetusmitochondrial biogenesis
collection DOAJ
language English
format Article
sources DOAJ
author T.D. Zou
B. Yu
J. Yu
X.B. Mao
P. Zheng
J. He
Z.Q. Huang
D.T. He
D.W. Chen
spellingShingle T.D. Zou
B. Yu
J. Yu
X.B. Mao
P. Zheng
J. He
Z.Q. Huang
D.T. He
D.W. Chen
Mitochondrial biogenesis is decreased in skeletal muscle of pig fetuses exposed to maternal high-energy diets
Animal
energy intake
gestation
skeletal muscle
fetus
mitochondrial biogenesis
author_facet T.D. Zou
B. Yu
J. Yu
X.B. Mao
P. Zheng
J. He
Z.Q. Huang
D.T. He
D.W. Chen
author_sort T.D. Zou
title Mitochondrial biogenesis is decreased in skeletal muscle of pig fetuses exposed to maternal high-energy diets
title_short Mitochondrial biogenesis is decreased in skeletal muscle of pig fetuses exposed to maternal high-energy diets
title_full Mitochondrial biogenesis is decreased in skeletal muscle of pig fetuses exposed to maternal high-energy diets
title_fullStr Mitochondrial biogenesis is decreased in skeletal muscle of pig fetuses exposed to maternal high-energy diets
title_full_unstemmed Mitochondrial biogenesis is decreased in skeletal muscle of pig fetuses exposed to maternal high-energy diets
title_sort mitochondrial biogenesis is decreased in skeletal muscle of pig fetuses exposed to maternal high-energy diets
publisher Elsevier
series Animal
issn 1751-7311
publishDate 2017-01-01
description Mitochondria plays an important role in the regulation of energy homeostasis. Moreover, mitochondrial biogenesis accompanies skeletal myogenesis, and we previously reported that maternal high-energy diet repressed skeletal myogenesis in pig fetuses. Therefore, the aim of this study was to evaluate the effects of moderately increased maternal energy intake on skeletal muscle mitochondrial biogenesis and function of the pig fetuses. Primiparous purebred Large White sows were allocated to a normal energy intake group (NE) as recommended by the National Research Council (NRC) and a high energy intake group (HE, 110% of NRC recommendations). On day 90 of gestation, fetal umbilical vein blood and longissimus (LM) muscle were collected. Results showed that the weight gain of sows fed HE diet was higher than NE sows on day 90 of gestation (P<0.05). Maternal HE diet increased fetal umbilical vein serum triglyceride and insulin concentrations (P<0.05), and tended to increase the homeostasis model assessment index (P=0.08). Furthermore, HE fetuses exhibited increased malondialdehyde concentration (P<0.05), and decreased activities of antioxidative enzymes (P<0.05) and intracellular NAD+ level (P<0.05) in LM muscle. These alterations in metabolic traits of HE fetuses were accompanied by reduced mitochondrial DNA amount (P<0.05) and down-regulated messenger RNA expression levels of genes responsible for mitochondrial biogenesis and function (P<0.05). Our results suggest that moderately increased energy supply during gestation decreases mitochondrial biogenesis, function and antioxidative capacity in skeletal muscle of pig fetuses.
topic energy intake
gestation
skeletal muscle
fetus
mitochondrial biogenesis
url http://www.sciencedirect.com/science/article/pii/S1751731116001269
work_keys_str_mv AT tdzou mitochondrialbiogenesisisdecreasedinskeletalmuscleofpigfetusesexposedtomaternalhighenergydiets
AT byu mitochondrialbiogenesisisdecreasedinskeletalmuscleofpigfetusesexposedtomaternalhighenergydiets
AT jyu mitochondrialbiogenesisisdecreasedinskeletalmuscleofpigfetusesexposedtomaternalhighenergydiets
AT xbmao mitochondrialbiogenesisisdecreasedinskeletalmuscleofpigfetusesexposedtomaternalhighenergydiets
AT pzheng mitochondrialbiogenesisisdecreasedinskeletalmuscleofpigfetusesexposedtomaternalhighenergydiets
AT jhe mitochondrialbiogenesisisdecreasedinskeletalmuscleofpigfetusesexposedtomaternalhighenergydiets
AT zqhuang mitochondrialbiogenesisisdecreasedinskeletalmuscleofpigfetusesexposedtomaternalhighenergydiets
AT dthe mitochondrialbiogenesisisdecreasedinskeletalmuscleofpigfetusesexposedtomaternalhighenergydiets
AT dwchen mitochondrialbiogenesisisdecreasedinskeletalmuscleofpigfetusesexposedtomaternalhighenergydiets
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