Fetal metabolic programming and epigenetic modifications: a systems biology approach

Sookoian, Silvia; Gianotti, Tomás Fernández; Burgueño, Adriana Laura; Pirola, Carlos José

doi:10.1038/pr.2013.2

Cited by 104 publications

(65 citation statements)

References 51 publications

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“…and various molecular, cellular, metabolic, neuroendocrine, physiological, and epigenetic pathways have been proposed for the resulting permanent effects on metabolism [14,15]. Our findings provide a clear demonstration of metabolic programming that connects maternal nutrition to measures of offspring fitness in a fish and indications of the general mechanism involved.…”

Section: Discussionmentioning

confidence: 67%

Metabolic programming mediated by an essential fatty acid alters body composition and survival skills of a marine fish

Fuiman¹,

Perez²

2015

Proc. R. Soc. B.

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ResearchCite this article: Fuiman LA, Perez KO. 2015 Metabolic programming mediated by an essential fatty acid alters body composition and survival skills of a marine fish. Proc. R. Soc. Metabolic programming occurs when variations in nutrition during a specific developmental window result in long-term metabolic effects. It has been studied almost exclusively in humans and other mammals but never in an ecological context. Here, we report metabolic programming and its functional consequences in a marine fish, red drum. We demonstrate that maternal provisioning of eggs with an essential fatty acid, docosahexaenoic acid (DHA), varies with DHA content of the maternal diet. When offspring are reared on a DHA-replete diet, whole-body DHA content of offspring depends upon the amount of DHA that was in the egg. We further demonstrate that whole-body DHA content is correlated with traits related to offspring fitness (escape responses, routine swimming, growth, and survival). DHA content of red drum eggs produced in nature is in the range where the effects of metabolic programming are most pronounced. Our findings indicate that during a brief developmental window, DHA plays a role in establishing the metabolic capacity for its own uptake or storage, with protracted and possibly permanent effects on ecologically important survival skills of individuals and important implications for dynamics of populations and food webs.

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Section: Discussionmentioning

confidence: 67%

Metabolic programming mediated by an essential fatty acid alters body composition and survival skills of a marine fish

Fuiman¹,

Perez²

2015

Proc. R. Soc. B.

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“…Systems biology approaches have indicated that the maternal intrauterine environment modulates fetal metabolic programming, which in turn can have a profound effect on gene expression early in life and can be passed across generations through epigenetic modifications (53). Recent reports have shown that NO affects global histone methylation patterns, particularly by directly inhibiting the lysine-specific histone demethylase Kdm3a and likely other Jumonji C domain-containing demethylases (29,30).…”

Section: Discussionmentioning

confidence: 99%

Epigenetic mechanisms underlying maternal diabetes-associated risk of congenital heart disease

et al. 2017

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“…Developmental plasticity during pre- and postnatal development allows the organism to adapt to environmental cues by cellular, metabolic, and other physiological changes. Hence different phenotypes can originate from the same genotype due to environmental stimuli via mechanisms such as epigenetic modifications [3]. For example, it has been proposed that intrauterine undernutrition can cause changes in endocrine response, body size, and composition as the fetus adapts to encounter the threat to survival [4,5].…”

Section: Introductionmentioning

confidence: 99%

Cord Blood Metabolome Is Highly Associated with Birth Weight, but Less Predictive for Later Weight Development

Hellmuth

Uhl²,

Standl³

et al. 2017

Obes Facts

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Background/Aims: Fetal metabolism may be changed by the exposure to maternal factors, and the route to obesity may already set in utero. Cord blood metabolites might predict growth patterns and later obesity. We aimed to characterize associations of cord blood with birth weight, postnatal weight gain, and BMI in adolescence. Methods: Over 700 cord blood samples were collected from infants participating in the German birth cohort study LISAplus. Glycerophospholipid fatty acids (GPL-FA), polar lipids, non-esterified fatty acids (NEFA), and amino acids were analyzed with a targeted, liquid chromatography-tandem mass spectrometry based metabolomics platform. Cord blood metabolites were related to growth factors by linear regression models adjusted for confounding variables. Results: Cord blood metabolites were highly associated with birth weight. Lysophosphatidylcholines C16:1, C18:1, C20:3, C18:2, C20:4, C14:0, C16:0, C18:3, GPL-FA C20:3n-9, and GPL-FA C22:5n-6 were positively related to birth weight, while higher cord blood concentrations of NEFA C22:6, NEFA C20:5, GPL-FA C18:3n-3, and PCe C38:0 were associated with lower birth weight. Postnatal weight gain and BMI z-scores in adolescents were not significantly associated with cord blood metabolites after adjustment for multiple testing. Conclusion: Potential long-term programming effects of the intrauterine environment and metabolism on later health cannot be predicted with profiling of the cord blood metabolome.

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Fetal metabolic programming and epigenetic modifications: a systems biology approach

Cited by 104 publications

References 51 publications

Metabolic programming mediated by an essential fatty acid alters body composition and survival skills of a marine fish

Metabolic programming mediated by an essential fatty acid alters body composition and survival skills of a marine fish

Epigenetic mechanisms underlying maternal diabetes-associated risk of congenital heart disease

Cord Blood Metabolome Is Highly Associated with Birth Weight, but Less Predictive for Later Weight Development

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