Protein restricted diet during gestation and/or lactation in mice affects 15N natural isotopic abundance of organs in the offspring: Effect of diet 15N content and growth

• Published in: PloS one Vol. 13; no. 10; p. e0205271
• Main Authors: Bernardo, Karine, Jousse, Céline, Fafournoux, Pierre, Schiphorst, Anne-Marie, Grand, Mathilde, Robins, Richard J, Hankard, Régis, De Luca, Arnaud
• Format: Journal Article
• Language: English
• Published: United States Public Library of Science 2018; Public Library of Science (PLoS)
• Subjects: Amino acids; Animals; Biology and Life Sciences; Biosynthesis; Carbon; Dams; Diet; Dilution; Disease; Exponential functions; Food; Food and Nutrition; Gestation; Growth rate; Hair; Lactation; Life Sciences; Liver; Low protein diet; Medicine and Health Sciences; Metabolism; Mice; Muscles; Nitrogen; Nutrient deficiency; Nutrition research; Offspring; Organs; Physical Sciences; Proteins; Rodents; Santé publique et épidémiologie; Scientific imaging; Variance analysis; Weaning; France; trouble du métabolisme; metabolic disorders; période de gestation; pregnancy duration; allaitement maternel; protéine alimentaire; période de lactation
• ISSN: 1932-6203; 1932-6203
• DOI: 10.1371/journal.pone.0205271

This study aimed at measuring the effect in normal to restricted protein diets with specific 15N natural isotopic abundance (NIA) given during gestation and/or lactation on the 15N NIA of fur, liver and muscle in dams and their offspring from birth to adulthood. The secondary aim was to study the effect of growth on the same parameters. Female Balb/c mice were fed normal protein diet containing 22% protein or isocaloric low protein diet containing 10% protein throughout gestation. Dam's diets were either maintained or switched to the other diet until weaning at 30 days. All animals were fed standard chow thereafter. Offspring were sacrificed at 1, 11, 30, 60, 480 days and a group of dams at d1. Growth was modeled as an exponential function on the group followed up until 480 days. Fur, liver and muscle were sampled at sacrifice and analyzed for bulk 15N NIA. Fixed effects and interactions between fixed effects and random elements were tested by three-way ANOVA. Higher 15N NIA in the diet resulted in higher organ 15N NIA. Switching from one diet to another changed 15N NIA in each organ. Although dam and offspring shared the same isotopic environment during gestation, 15N NIA at day 1 was higher in dams. Growth rate did not differ between groups after 10 days and decreased between 1 and 5 months. 15N NIA differed between organs and was affected by growth and gestation/lactation. Dietary 15N NIA is a major determinant of the 15N NIA of organs. 15N NIA depended on organ and age (i.e. growth) suggesting an effect of metabolism and/or dilution space. Post-natal normal-protein diet of lactating dams could reverse the effect of a protein-restricted diet during gestation on the offspring growth. Measuring 15N NIA in various matrices may open a field of application particularly useful in studying the pre- and post-natal origins of health and disease.