Paternal under-nutrition programs metabolic syndrome in offspring which can be reversed by antioxidant/vitamin food fortification in fathers

There is an ever increasing body of evidence that demonstrates that paternal over-nutrition prior to conception programs impaired metabolic health in offspring. Here we examined whether paternal under-nutrition can also program impaired health in offspring and if any detrimental health outcomes in o...

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Veröffentlicht in:	Scientific reports 2016-06, Vol.6 (1), p.27010-27010, Article 27010
Hauptverfasser:	McPherson, Nicole O., Fullston, Tod, Kang, Wan Xian, Sandeman, Lauren Y., Corbett, Mark A., Owens, Julie A., Lane, Michelle
Format:	Artikel
Sprache:	eng
Schlagworte:	631/136/2435 692/308/1426 Adipose tissue Antioxidants Body weight Deoxyribonucleic acid Dietary supplements DNA DNA methylation Dyslipidemia Fertility Food Food fortification Food intake Humanities and Social Sciences Lesions Malnutrition Metabolic disorders Metabolic syndrome Metabolism multidisciplinary Nutrition Offspring Overnutrition Science Sperm Vitamins
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creator	McPherson, Nicole O. Fullston, Tod Kang, Wan Xian Sandeman, Lauren Y. Corbett, Mark A. Owens, Julie A. Lane, Michelle
description	There is an ever increasing body of evidence that demonstrates that paternal over-nutrition prior to conception programs impaired metabolic health in offspring. Here we examined whether paternal under-nutrition can also program impaired health in offspring and if any detrimental health outcomes in offspring could be prevented by micronutrient supplementation (vitamins and antioxidants). We discovered that restricting the food intake of male rodents reduced their body weight, fertility, increased sperm oxidative DNA lesions and reduced global sperm methylation. Under-nourished males then sired offspring with reduced postnatal weight and growth but somewhat paradoxically increased adiposity and dyslipidaemia, despite being fed standard chow. Paternal vitamin/antioxidant food fortification during under-nutrition not only normalised founder oxidative sperm DNA lesions but also prevented early growth restriction, fat accumulation and dyslipidaemia in offspring. This demonstrates that paternal under-nutrition reduces postnatal growth but increases the risk of obesity and metabolic disease in the next generation and that micronutrient supplementation during this period of under-nutrition is capable of restoring offspring metabolic health.
doi_str_mv	10.1038/srep27010
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Here we examined whether paternal under-nutrition can also program impaired health in offspring and if any detrimental health outcomes in offspring could be prevented by micronutrient supplementation (vitamins and antioxidants). We discovered that restricting the food intake of male rodents reduced their body weight, fertility, increased sperm oxidative DNA lesions and reduced global sperm methylation. Under-nourished males then sired offspring with reduced postnatal weight and growth but somewhat paradoxically increased adiposity and dyslipidaemia, despite being fed standard chow. Paternal vitamin/antioxidant food fortification during under-nutrition not only normalised founder oxidative sperm DNA lesions but also prevented early growth restriction, fat accumulation and dyslipidaemia in offspring. 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Here we examined whether paternal under-nutrition can also program impaired health in offspring and if any detrimental health outcomes in offspring could be prevented by micronutrient supplementation (vitamins and antioxidants). We discovered that restricting the food intake of male rodents reduced their body weight, fertility, increased sperm oxidative DNA lesions and reduced global sperm methylation. Under-nourished males then sired offspring with reduced postnatal weight and growth but somewhat paradoxically increased adiposity and dyslipidaemia, despite being fed standard chow. Paternal vitamin/antioxidant food fortification during under-nutrition not only normalised founder oxidative sperm DNA lesions but also prevented early growth restriction, fat accumulation and dyslipidaemia in offspring. 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Rep</addtitle><date>2016-06-03</date><risdate>2016</risdate><volume>6</volume><issue>1</issue><spage>27010</spage><epage>27010</epage><pages>27010-27010</pages><artnum>27010</artnum><issn>2045-2322</issn><eissn>2045-2322</eissn><abstract>There is an ever increasing body of evidence that demonstrates that paternal over-nutrition prior to conception programs impaired metabolic health in offspring. Here we examined whether paternal under-nutrition can also program impaired health in offspring and if any detrimental health outcomes in offspring could be prevented by micronutrient supplementation (vitamins and antioxidants). We discovered that restricting the food intake of male rodents reduced their body weight, fertility, increased sperm oxidative DNA lesions and reduced global sperm methylation. Under-nourished males then sired offspring with reduced postnatal weight and growth but somewhat paradoxically increased adiposity and dyslipidaemia, despite being fed standard chow. Paternal vitamin/antioxidant food fortification during under-nutrition not only normalised founder oxidative sperm DNA lesions but also prevented early growth restriction, fat accumulation and dyslipidaemia in offspring. 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subjects	631/136/2435 692/308/1426 Adipose tissue Antioxidants Body weight Deoxyribonucleic acid Dietary supplements DNA DNA methylation Dyslipidemia Fertility Food Food fortification Food intake Humanities and Social Sciences Lesions Malnutrition Metabolic disorders Metabolic syndrome Metabolism multidisciplinary Nutrition Offspring Overnutrition Science Sperm Vitamins
title	Paternal under-nutrition programs metabolic syndrome in offspring which can be reversed by antioxidant/vitamin food fortification in fathers
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