孕期和/或哺乳期的蛋白质限制饮食会影响小鼠后代器官的 15N 天然同位素丰度：饮食 15N 含量和生长的影响。

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.

机构信息

Inserm UMR 1069, Tours, France.

University Hospital of Tours, Tours, France.

出版信息

PLoS One. 2018 Oct 10;13(10):e0205271. doi: 10.1371/journal.pone.0205271. eCollection 2018.

DOI:10.1371/journal.pone.0205271

PMID:30304003

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6179277/

Abstract

OBJECTIVES AND STUDY

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.

METHODS

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.

RESULTS

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.

CONCLUSION

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.

摘要

目的和研究

本研究旨在测量在妊娠和/或哺乳期给予正常至限制蛋白饮食和特定 15N 天然同位素丰度（NIA）对母体及其后代从出生到成年的毛发、肝脏和肌肉中 15N NIA 的影响。次要目的是研究生长对这些参数的影响。

方法

雌性 Balb/c 小鼠在整个妊娠期均给予含 22%蛋白质的正常蛋白质饮食或含 10%蛋白质的等热量低蛋白饮食。母体的饮食要么维持不变，要么在 30 天断奶时切换到另一种饮食。此后，所有动物均喂食标准饲料。在 1、11、30、60、480 天和一组母鼠 d1 处死后代。将生长建模为组内的指数函数，直到 480 天。处死时取样毛发、肝脏和肌肉，并分析其总 15N NIA。通过三因素方差分析检验固定效应和固定效应与随机因素之间的相互作用。

结果

饮食中较高的 15N NIA 导致器官中 15N NIA 较高。从一种饮食切换到另一种饮食会改变每个器官中的 15N NIA。尽管母体和后代在妊娠期间共享相同的同位素环境，但母体在第 1 天的 15N NIA 更高。10 天后，各组之间的生长速度没有差异，1 至 5 个月之间生长速度下降。15N NIA 在器官之间存在差异，受生长和妊娠/哺乳期的影响。

结论

饮食 15N NIA 是器官 15N NIA 的主要决定因素。15N NIA 取决于器官和年龄（即生长），提示代谢和/或稀释空间的影响。哺乳期母体的正常蛋白后营养饮食可以逆转妊娠期间限制蛋白饮食对后代生长的影响。测量各种基质中的 15N NIA 可能开辟一个特别有用的应用领域，用于研究健康和疾病的产前和产后起源。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/140c/6179277/b67130dabff8/pone.0205271.g001.jpg

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孕期和/或哺乳期的蛋白质限制饮食会影响小鼠后代器官的 15N 天然同位素丰度：饮食 15N 含量和生长的影响。

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.

机构信息

出版信息

OBJECTIVES AND STUDY

METHODS

RESULTS

CONCLUSION

目的和研究

方法

结果

结论

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