Wannemacher R W, Wannemacher C F, Yatvin M B
Biochem J. 1971 Sep;124(2):385-92. doi: 10.1042/bj1240385.
Weanling (23-day-old) rats were fed on either a low-protein diet (6% casein) or a diet containing an adequate amount of protein (18% casein) for 28 days. Hepatic cells from animals fed on the deficient diet were characterized by markedly lower concentrations of protein and RNA in all cellular fractions as compared with cells from control rats. The bound rRNA fraction was decreased to the greatest degree, whereas the free ribosomal concentrations were only slightly less than in control animals. A good correlation was observed between the rate of hepatic protein synthesis in vivo and the cellular protein content of the liver. Rates of protein synthesis both in vivo and in vitro were directly correlated with the hepatic concentration of individual free amino acids that are essential for protein synthesis. The decreased protein-synthetic ability of the ribosomes from the liver of protein-deprived rats was related to a decrease in the number of active ribosomes and heavy polyribosomes. The lower ribosomal content of the hepatocytes was correlated with the decreased concentration of essential free amino acids. In the protein-deprived rats, the rate of accumulation of newly synthesized cytoplasmic rRNA was markedly decreased compared with control animals. From these results it was concluded that amino acids regulate protein synthesis (1) by affecting the number of ribosomes that actively synthesize protein and (2) by inhibiting the rate of synthesis of new ribosomes. Both of these processes may involve the synthesis of proteins with a rapid rate of turnover.
将23日龄的断奶大鼠用低蛋白饮食(6%酪蛋白)或含适量蛋白质的饮食(18%酪蛋白)喂养28天。与对照大鼠的细胞相比,用缺乏蛋白质饮食喂养的动物的肝细胞在所有细胞组分中的蛋白质和RNA浓度明显较低。结合rRNA组分下降程度最大,而游离核糖体浓度仅略低于对照动物。观察到肝脏体内蛋白质合成速率与肝脏细胞蛋白质含量之间有良好的相关性。体内和体外的蛋白质合成速率都与蛋白质合成所必需的单个游离氨基酸的肝脏浓度直接相关。蛋白质缺乏大鼠肝脏核糖体的蛋白质合成能力下降与活性核糖体和重多核糖体数量减少有关。肝细胞核糖体含量较低与必需游离氨基酸浓度降低相关。与对照动物相比,蛋白质缺乏大鼠中新合成的细胞质rRNA的积累速率明显降低。从这些结果得出结论,氨基酸调节蛋白质合成:(1)通过影响积极合成蛋白质的核糖体数量,(2)通过抑制新核糖体的合成速率。这两个过程可能都涉及周转率快的蛋白质的合成。