喂食高蛋白饮食的转基因镰状小鼠的身体成分和握力得到改善。

Body composition and grip strength are improved in transgenic sickle mice fed a high-protein diet.

作者信息

Capers Patrice L, Hyacinth Hyacinth I, Cue Shayla, Chappa Prasanthi, Vikulina Tatyana, Roser-Page Susanne, Weitzmann M Neale, Archer David R, Newman Gale W, Quarshie Alexander, Stiles Jonathan K, Hibbert Jacqueline M

机构信息

Departments of Microbiology , Biochemistry and Immunology/Medicine , Morehouse School of Medicine , 720 Westview Drive SW , Atlanta , GA 30310 , USA ; University of Alabama at Birmingham , 1720 2nd Avenue South , Birmingham , AL 35294 , USA.

Departments of Microbiology , Biochemistry and Immunology/Medicine , Morehouse School of Medicine , 720 Westview Drive SW , Atlanta , GA 30310 , USA ; Medical University of South Carolina , 169 Ashley Avenue , SC 29403 , USA ; Aflac Cancer and Blood Disorder Center , Children's Healthcare of Atlanta , Emory University , 2015 Uppergate Drive , Atlanta , GA 30322 , USA.

出版信息

J Nutr Sci. 2015 Feb 27;4:e6. doi: 10.1017/jns.2014.63. eCollection 2015.

DOI:10.1017/jns.2014.63

PMID:26090102

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4463939/

Abstract

Key pathophysiology of sickle cell anaemia includes compensatory erythropoiesis, vascular injury and chronic inflammation, which divert amino acids from tissue deposition for growth/weight gain and muscle formation. We hypothesised that sickle mice maintained on an isoenergetic diet with a high percentage of energy derived from protein (35 %), as opposed to a standard diet with 20 % of energy derived from protein, would improve body composition, bone mass and grip strength. Male Berkeley transgenic sickle mice (S; n 8-12) were fed either 20 % (S20) or 35 % (S35) diets for 3 months. Grip strength (BIOSEB meter) and body composition (dual-energy X-ray absorptiometry scan) were measured. After 3 months, control mice had the highest bone mineral density (BMD) and bone mineral content (BMC) (P < 0·005). S35 mice had the largest increase in grip strength. A two-way ANOVA of change in grip strength (P = 0·043) attributed this difference to genotype (P = 0·025) and a trend in type of diet (P = 0·067). l-Arginine (l-Arg) supplementation of the 20 % diet was explored, as a possible mechanism for improvement obtained with the 35 % diet. Townes transgenic sickle mice (TS; n 6-9) received 0·8, 1·6, 3·2 or 6·4 % l-Arg based on the same protocol and outcome measures used for the S mice. TS mice fed 1·6 % l-Arg for 3 months (TS1.6) had the highest weight gain, BMD, BMC and lean body mass compared with other groups. TS3.2 mice showed significantly more improvement in grip strength than TS0·8 and TS1.6 mice (P < 0·05). In conclusion, the high-protein diet improved body composition and grip strength. Outcomes observed with TS1.6 and TS3.2 mice, respectively, confirm the hypothesis and reveal l-Arg as part of the mechanism.

摘要

镰状细胞贫血的关键病理生理学包括代偿性红细胞生成、血管损伤和慢性炎症，这些会使氨基酸从组织沉积中转移出来，用于生长/体重增加和肌肉形成。我们假设，与能量的20%来自蛋白质的标准饮食相比，以能量的35%来自蛋白质的等能量饮食喂养镰状小鼠，会改善身体组成、骨量和握力。雄性伯克利转基因镰状小鼠（S组；n = 8 - 12）分别喂食20%（S20）或35%（S35）的饮食3个月。测量握力（BIOSEB测力计）和身体组成（双能X线吸收法扫描）。3个月后，对照小鼠的骨矿物质密度（BMD）和骨矿物质含量（BMC）最高（P < 0·005）。S35组小鼠的握力增加最大。对握力变化进行的双向方差分析（P = 0·043）将这种差异归因于基因型（P = 0·025）和饮食类型的趋势（P = 0·067）。研究了在20%饮食中补充左旋精氨酸（l-Arg），作为35%饮食获得改善的一种可能机制。汤姆斯转基因镰状小鼠（TS组；n = 6 - 9）根据用于S组小鼠的相同方案和结果测量方法，接受0·8%、1·6%、3·2%或6·4%的l-Arg。与其他组相比，喂食1·6% l-Arg 3个月的TS组小鼠（TS1.6）体重增加、BMD、BMC和瘦体重最高。TS3.2组小鼠的握力改善明显高于TS0·8和TS1.6组小鼠（P < 0·05）。总之，高蛋白饮食改善了身体组成和握力。TS1.6和TS3.2组小鼠分别观察到的结果证实了这一假设，并揭示l-Arg是该机制的一部分。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cafc/4463939/8f1d3e2cb857/S2048679014000639_fig1.jpg

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喂食高蛋白饮食的转基因镰状小鼠的身体成分和握力得到改善。

Body composition and grip strength are improved in transgenic sickle mice fed a high-protein diet.

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