Tomas F M, Murray A J, Jones L M
Br J Nutr. 1984 May;51(3):323-37. doi: 10.1079/bjn19840039.
The effects of differing degrees of experimental protein-energy malnutrition on the response of myofibrillar protein turnover rates to administration of corticosteroid has been studied in two experiments on rats. The basal control diet, offered ad lib. in each case, contained 40 g protein/kg, and other groups received diets containing 62 X 5, 95 or 220 g protein/kg at 0 X 67, 1 or 1 X 5 times the level of the control energy intake. Daily administration of 25 or 30 mg corticosterone/kg body-weight after 18 d pre-feeding caused an increase in plasma protein, glucose and insulin concentrations, but a decrease in the corticosterone: insulin values. Liver size and protein content increased, as did the fractional excretion of dietary nitrogen as urea-N in all treated groups. However, whereas a fall in food intake and body-weight occurred in one experiment the reverse occurred in the other. Ntau -Methylhistidine excretion was 12% lower for rats receiving 40 v. 220 g protein/kg diet and excretion was increased by only 57 v. 90% respectively, when the two groups of rats were given 30 mg corticosterone/kg per d. Rats which received 25 mg corticosterone/kg per d and up to 95 g protein/kg diet increased excretion of Ntau -methylhistidine by an average 35%. The fractional degradation rate of myofibrillar protein (kd) was reduced by about 10% by the low-protein diet from 3 X 1 to 2 X 8%/d. During corticosterone treatment the increment in kd for rats on this diet was only 60% of that for rats receiving the 220 g protein/kg diet, i.e. an increase of 1 X 8 v. 3 X 0%/d. Energy restriction further reduced kd during low-protein intake but did not affect the response to the corticosterone. Variations in dietary protein from 40 to 95 g/kg had little effect on the increase in kd during steroid treatment. The effect of corticosterone on calculated synthesis rates (ks) differed markedly between experiments. While ks fell by 50-65% in rats which lost weight on treatment, it rose by up to 60% in rats where carcass non-collagen-protein accretion remained unchanged or increased, despite an increase in kd. Protein deficiency decreases the catabolic response to glucocorticoid, but the net metabolic response appears crucially dependent on changes in food intake or the stage of growth of the rat or both. A net anabolic response with increased fractional rates of myofibrillar protein breakdown, synthesis and accretion was observed in growing rats fed on relatively-low-protein diets and given 25 mg corticosterone/kg per d.(ABSTRACT TRUNCATED AT 400 WORDS)
在对大鼠进行的两项实验中,研究了不同程度的实验性蛋白质 - 能量营养不良对肌原纤维蛋白周转率对给予皮质类固醇反应的影响。在每种情况下随意提供的基础对照饮食含40 g蛋白质/ kg,其他组分别接受含62×5、95或220 g蛋白质/ kg的饮食,其能量摄入水平分别为对照的0×67、1或1×5倍。在预喂养18天后,每天给予25或30 mg皮质酮/ kg体重,导致血浆蛋白、葡萄糖和胰岛素浓度升高,但皮质酮:胰岛素值降低。所有处理组的肝脏大小和蛋白质含量增加,膳食氮作为尿素 - N的分数排泄也增加。然而,在一个实验中出现了食物摄入量和体重下降的情况,而在另一个实验中则相反。接受40 g蛋白质/ kg饮食的大鼠与接受220 g蛋白质/ kg饮食的大鼠相比,Ntau - 甲基组氨酸排泄低12%,当两组大鼠每天给予30 mg皮质酮/ kg时,排泄量分别仅增加57%和90%。每天接受25 mg皮质酮/ kg且饮食中蛋白质含量高达95 g/ kg的大鼠,Ntau - 甲基组氨酸排泄平均增加35%。低蛋白饮食使肌原纤维蛋白的分数降解率(kd)从3×1%降至2×8%/天,降低了约10%。在皮质酮治疗期间,这种饮食的大鼠kd增加量仅为接受220 g蛋白质/ kg饮食大鼠的60%,即从1×8%/天增加至3×0%/天。能量限制在低蛋白摄入期间进一步降低了kd,但不影响对皮质酮的反应。饮食中蛋白质从40 g/ kg变化至95 g/ kg对类固醇治疗期间kd的增加影响不大。皮质酮对计算出的合成率(ks)的影响在不同实验之间有显著差异。在治疗期间体重减轻的大鼠中,ks下降了50 - 65%,而在体中非胶原蛋白蛋白质增加保持不变或增加的大鼠中,尽管kd增加,ks却上升了高达60%。蛋白质缺乏会降低对糖皮质激素的分解代谢反应,但净代谢反应似乎关键取决于食物摄入量的变化或大鼠的生长阶段或两者。在喂食相对低蛋白饮食并每天给予25 mg皮质酮/ kg的生长大鼠中,观察到肌原纤维蛋白分解、合成和增加的分数率增加的净合成代谢反应。(摘要截于400字)
