Perinatal protein restriction affects milk free amino acid and fatty acid profile in lactating rats: potential role on pup growth and metabolic status. Martin Agnoux, A., Antignac, J., Boquien, C., David, A., Desnots, E., Ferchaud-Roucher, V., Darmaun, D., Parnet, P., & Alexandre-Gouabau, M. 26(7):784–795.
Perinatal protein restriction affects milk free amino acid and fatty acid profile in lactating rats: potential role on pup growth and metabolic status [link]Paper  doi  abstract   bibtex   
Perinatal undernutrition affects not only fetal and neonatal growth but also adult health outcome, as suggested by the metabolic imprinting concept. Although maternal milk is the only channel through which nutrients are transferred from mother to offspring during the postnatal period, the impact of maternal undernutrition on milk composition is poorly understood. The present study investigates, in a rat model of nutritional programming, the effects of feeding an isocaloric, low-protein diet throughout gestation and lactation on milk composition and its possible consequences on offspring’s growth and metabolic status. We used an integrated methodological approach that combined targeted analyses of macronutrients, free amino acid and fatty acid content throughout lactation, with an untargeted mass-spectrometric-based metabolomic phenotyping. Whereas perinatal dietary protein restriction failed to alter milk protein content, it dramatically decreased the concentration of most free amino acids at the end of lactation. Interestingly, a decrease of several amino acids involved in insulin secretion or gluconeogenesis was observed, suggesting that maternal protein restriction during the perinatal period may impact the insulinotrophic effect of milk, which may, in turn, account for the slower growth of the suckled male offspring. Besides, the decrease in sulfur amino acids may alter redox status in the offspring. Maternal undernutrition was also associated with an increase in milk total fatty acid content, with modifications in their pattern. Altogether, our results show that milk composition is clearly influenced by maternal diet and suggest that alterations in milk composition may play a role in offspring growth and metabolic programming.
@article{martin_agnoux_perinatal_2015,
	title = {Perinatal protein restriction affects milk free amino acid and fatty acid profile in lactating rats: potential role on pup growth and metabolic status},
	volume = {26},
	issn = {09552863},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S095528631500073X},
	doi = {10.1016/j.jnutbio.2015.02.012},
	shorttitle = {Perinatal protein restriction affects milk free amino acid and fatty acid profile in lactating rats},
	abstract = {Perinatal undernutrition affects not only fetal and neonatal growth but also adult health outcome, as suggested by the metabolic imprinting concept. Although maternal milk is the only channel through which nutrients are transferred from mother to offspring during the postnatal period, the impact of maternal undernutrition on milk composition is poorly understood. The present study investigates, in a rat model of nutritional programming, the effects of feeding an isocaloric, low-protein diet throughout gestation and lactation on milk composition and its possible consequences on offspring’s growth and metabolic status. We used an integrated methodological approach that combined targeted analyses of macronutrients, free amino acid and fatty acid content throughout lactation, with an untargeted mass-spectrometric-based metabolomic phenotyping. Whereas perinatal dietary protein restriction failed to alter milk protein content, it dramatically decreased the concentration of most free amino acids at the end of lactation. Interestingly, a decrease of several amino acids involved in insulin secretion or gluconeogenesis was observed, suggesting that maternal protein restriction during the perinatal period may impact the insulinotrophic effect of milk, which may, in turn, account for the slower growth of the suckled male offspring. Besides, the decrease in sulfur amino acids may alter redox status in the offspring. Maternal undernutrition was also associated with an increase in milk total fatty acid content, with modifications in their pattern. Altogether, our results show that milk composition is clearly influenced by maternal diet and suggest that alterations in milk composition may play a role in offspring growth and metabolic programming.},
	pages = {784--795},
	number = {7},
	journaltitle = {The Journal of Nutritional Biochemistry},
	author = {Martin Agnoux, Aurore and Antignac, Jean-Philippe and Boquien, Clair-Yves and David, Agnes and Desnots, Emmanuelle and Ferchaud-Roucher, Veronique and Darmaun, Dominique and Parnet, Patricia and Alexandre-Gouabau, Marie-Cécile},
	urldate = {2019-03-29},
	date = {2015-07},
	langid = {english},
	file = {Martin Agnoux et al. - 2015 - Perinatal protein restriction affects milk free am.pdf:C\:\\Users\\ygu\\Documents\\PCPOR066_YGU\\YGU\\Zotero\\storage\\GAIYHNAU\\Martin Agnoux et al. - 2015 - Perinatal protein restriction affects milk free am.pdf:application/pdf}
}

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