UMR 914 INRA-AgroParisTech, Nutrition Physiology and Ingestive Behavior, 75005 Paris, France; Yoplait France, 92641 Boulogne-Billancourt, France.
INSERM U1059/LBTO, Université Jean Monnet, Université de Lyon, 42023 Saint-Étienne, France.
Bone. 2014 Feb;59:7-13. doi: 10.1016/j.bone.2013.10.013. Epub 2013 Oct 24.
Adequate protein intake during development is critical to ensure optimal bone gain and to attain a higher peak bone mass later on. We hypothesized that the quality of the dietary protein is of prime importance for bone physiology during moderate protein restriction. The target population was growing Balb/C mice. We compared two protein restricted diets (6% of total energy as protein), one based on soy (LP-SOY) and one based on casein (LP-CAS). For comparison, a normal protein soy-based control group (NP-SOY) and a low protein group receiving an anabolic daily parathyroid hormone (PTH) 1-34 injection (LP-SOY+PTH) were included in the protocol. After 8weeks, LP-SOY mice had reduced body weights related to a lower lean mass whereas LP-CAS mice were not different from the NP-SOY group. LP-SOY mice were characterized by lower femoral cortical thickness, bone volume, trabecular number and thickness and increased medullar adiposity when compared to both the LP-CAS and NP-SOY groups. However, the dietary intervention had no effect on the vertebral parameters. The negative effect of the LP-SOY diet was correlated to an impaired bone formation as shown by the reduced P1NP serum level as well as the reduced osteoid surfaces and bone formation rate in the femur. PTH injection in LP-SOY mice had no effect on total weight or lean mass, but improved all bone parameters at both femoral and vertebral sites, suggesting that amino acid deficiency was not the primary reason for degraded bone status in mice consuming soy protein. In conclusion, our study showed that under the same protein restriction (6% of energy), a soy diet leads to impaired bone health whereas a casein diet has little effect when compared to a normal protein control.
在发育过程中摄入足够的蛋白质对于确保最佳的骨骼生长和获得更高的峰值骨量至关重要。我们假设,在适度蛋白质限制期间,膳食蛋白质的质量对于骨骼生理学至关重要。目标人群是生长中的 Balb/C 小鼠。我们比较了两种蛋白质限制饮食(总能量的 6%作为蛋白质),一种基于大豆(LP-SOY),另一种基于乳清蛋白(LP-CAS)。为了比较,我们还包括了一个正常蛋白质的大豆对照组(NP-SOY)和一个接受合成代谢性甲状旁腺激素(PTH)1-34 注射的低蛋白质组(LP-SOY+PTH)。8 周后,LP-SOY 小鼠的体重减轻与较低的瘦肉量有关,而 LP-CAS 小鼠与 NP-SOY 组没有区别。与 LP-CAS 和 NP-SOY 组相比,LP-SOY 小鼠的股骨皮质厚度、骨量、小梁数量和厚度较低,骨髓脂肪含量增加。然而,饮食干预对椎体参数没有影响。LP-SOY 饮食的负面影响与骨形成受损有关,表现为血清 P1NP 水平降低,以及股骨中类骨质表面和骨形成率降低。在 LP-SOY 小鼠中注射 PTH 对总重量或瘦肉量没有影响,但改善了股骨和椎体部位的所有骨参数,表明氨基酸缺乏不是食用大豆蛋白的小鼠骨状态恶化的主要原因。总之,我们的研究表明,在相同的蛋白质限制(6%的能量)下,大豆饮食会导致骨骼健康受损,而乳清蛋白饮食与正常蛋白质对照组相比几乎没有影响。
