骨强度降低是苯丙酮尿症小鼠的表现，而糖巨肽饮食可减轻这种情况。

Low bone strength is a manifestation of phenylketonuria in mice and is attenuated by a glycomacropeptide diet.

机构信息

Department of Nutritional Sciences, University of Wisconsin, Madison, Wisconsin, USA.

出版信息

PLoS One. 2012;7(9):e45165. doi: 10.1371/journal.pone.0045165. Epub 2012 Sep 18.

DOI:10.1371/journal.pone.0045165

PMID:23028819

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3445501/

Abstract

PURPOSE

Phenylketonuria (PKU), caused by phenylalanine (phe) hydroxylase loss of function mutations, requires a low-phe diet plus amino acid (AA) formula to prevent cognitive impairment. Glycomacropeptide (GMP), a low-phe whey protein, provides a palatable alternative to AA formula. Skeletal fragility is a poorly understood chronic complication of PKU. We sought to characterize the impact of the PKU genotype and dietary protein source on bone biomechanics.

PROCEDURES

Wild type (WT; Pah(+/+)) and PKU (Pah(enu2/enu2)) mice on a C57BL/6J background were fed high-phe casein, low-phe AA, and low-phe GMP diets between 3 to 23 weeks of age. Following euthanasia, femur biomechanics were assessed by 3-point bending and femoral diaphyseal structure was determined. Femoral ex vivo bone mineral density (BMD) was assessed by dual-energy x-ray absorptiometry. Whole bone parameters were used in principal component analysis. Data were analyzed by 3-way ANCOVA with genotype, sex, and diet as the main factors.

FINDINGS

Regardless of diet and sex, PKU femora were more brittle, as manifested by lower post-yield displacement, weaker, as manifested by lower energy and yield and maximal loads, and showed reduced BMD compared with WT femora. Four principal components accounted for 87% of the variance and all differed significantly by genotype. Regardless of genotype and sex, the AA diet reduced femoral cross-sectional area and consequent maximal load compared with the GMP diet.

CONCLUSIONS

Skeletal fragility, as reflected in brittle and weak femora, is an inherent feature of PKU. This PKU bone phenotype is attenuated by a GMP diet compared with an AA diet.

摘要

目的

苯丙酮尿症（PKU）是由苯丙氨酸（phe）羟化酶功能丧失突变引起的，需要低 phe 饮食加氨基酸（AA）配方来预防认知障碍。糖巨肽（GMP）是一种低 phe 的乳清蛋白，为 AA 配方提供了一种可口的替代品。骨骼脆弱是 PKU 一种尚未被充分了解的慢性并发症。我们试图描述 PKU 基因型和饮食蛋白来源对骨骼生物力学的影响。

过程

野生型（WT；Pah(+/+))和 PKU（Pah(enu2/enu2)）小鼠在 C57BL/6J 背景下，在 3 至 23 周龄之间分别喂食高 phe 酪蛋白、低 phe AA 和低 phe GMP 饮食。安乐死后，通过三点弯曲法评估股骨生物力学，通过双能 X 射线吸收法评估股骨骨干结构。通过双能 X 射线吸收法评估股骨离体骨密度（BMD）。使用主成分分析对全骨参数进行分析。数据通过三因素方差分析进行分析，基因型、性别和饮食作为主要因素。

结果

无论饮食和性别如何，PKU 股骨都更脆弱，表现为屈服后位移降低，更弱，表现为能量和屈服以及最大载荷降低，与 WT 股骨相比，BMD 降低。四个主成分占 87%的方差，且均与基因型显著不同。无论基因型和性别如何，AA 饮食与 GMP 饮食相比，都会降低股骨的横截面积和相应的最大载荷。

结论

骨骼脆弱，如脆弱和脆弱的股骨所反映的那样，是 PKU 的固有特征。与 AA 饮食相比，PKU 骨表型通过 GMP 饮食得到改善。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/60ac/3445501/cca086789219/pone.0045165.g001.jpg

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骨强度降低是苯丙酮尿症小鼠的表现，而糖巨肽饮食可减轻这种情况。

Low bone strength is a manifestation of phenylketonuria in mice and is attenuated by a glycomacropeptide diet.

机构信息

出版信息

PURPOSE

PROCEDURES

FINDINGS

CONCLUSIONS

目的

过程

结果

结论

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