菜籽油和牛奶蛋白的整体营养价值相似，但在大鼠餐后区域氮利用方面存在明显差异。

Rapeseed and milk protein exhibit a similar overall nutritional value but marked difference in postprandial regional nitrogen utilization in rats.

机构信息

INRA, CNRH-IdF, UMR914 Nutrition Physiology and Ingestive Behavior, F-75005 Paris, France.

出版信息

Nutr Metab (Lond). 2011 Jul 25;8(1):52. doi: 10.1186/1743-7075-8-52.

DOI:10.1186/1743-7075-8-52

PMID:21787407

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3156721/

Abstract

BACKGROUND

Rapeseed is an emerging and promising source of dietary protein for human nutrition and health. We previously found that rapeseed protein displayed atypical nutritional properties in humans, characterized by low bioavailability and a high postprandial biological value. The objective of the present study was to investigate the metabolic fate of rapeseed protein isolate (RPI) and its effect on protein fractional synthesis rates (FSR) in various tissues when compared to a milk protein isolate (MPI).

METHODS

Rats (n = 48) were given a RPI or MPI meal, either for the first time or after 2-week adaptation to a MPI or RPI-based diet. They were divided in two groups for measuring the fed-state tissue FSR 2 h after the meal (using a flooding dose of 13C-valine) and the dietary N postprandial distribution at 5 h (using 15N-labeled meals).

RESULTS

RPI and MPI led to similar FSR and dietary nitrogen (N) losses (ileal and deamination losses of 4% and 12% of the meal, respectively). By contrast, the dietary N incorporation was significantly higher in the intestinal mucosa and liver (+36% and +16%, respectively) and lower in skin (-24%) after RPI than MPI.

CONCLUSIONS

Although RPI and MPI led to the same overall level of postprandial dietary N retention in rats (in line with our findings in humans), this global response conceals marked qualitative differences at the tissue level regarding dietary N accretion. The fact that FSR did not however differed between groups suggest a differential modulation of proteolysis after RPI or MPI ingestion, or other mechanisms that warrant further study.

摘要

背景

油菜籽是一种新兴的、有前途的人类营养和健康的膳食蛋白质来源。我们之前发现，油菜籽蛋白在人体中表现出非典型的营养特性，其生物利用率低，餐后生物价值高。本研究的目的是研究油菜籽蛋白分离物（RPI）的代谢命运及其与牛奶蛋白分离物（MPI）相比对各种组织中蛋白质合成率（FSR）的影响。

方法

给大鼠（n=48）喂食 RPI 或 MPI 餐，首次喂食或在适应 RPI 或 MPI 饮食 2 周后喂食。它们分为两组，在喂食后 2 小时（使用 13C-缬氨酸的淹没剂量）测量进食状态组织 FSR，在 5 小时（使用 15N 标记的膳食）测量膳食 N 餐后分布。

结果

RPI 和 MPI 导致相似的 FSR 和膳食氮（N）损失（分别为膳食的 4%和 12%的回肠和脱氨损失）。相比之下，与 MPI 相比，RPI 后肠黏膜和肝脏中的膳食 N 掺入量显著增加（分别增加 36%和 16%），皮肤中的掺入量显著减少（减少 24%）。

结论

尽管 RPI 和 MPI 导致大鼠的餐后膳食 N 保留量相同（与我们在人体中的发现一致），但这种整体反应掩盖了组织水平上关于膳食 N 积累的明显的定性差异。然而，由于各组之间的 FSR 没有差异，这表明在 RPI 或 MPI 摄入后，蛋白质水解的差异调节或其他机制需要进一步研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6bc0/3156721/dc39c7190458/1743-7075-8-52-1.jpg

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菜籽油和牛奶蛋白的整体营养价值相似，但在大鼠餐后区域氮利用方面存在明显差异。

Rapeseed and milk protein exhibit a similar overall nutritional value but marked difference in postprandial regional nitrogen utilization in rats.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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