离子载体和代谢抑制剂对兔网织红细胞蛋白质合成的影响

Haim Breitbart
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引用次数: 8

摘要

研究了一些离子载体和代谢抑制剂对网织红细胞蛋白合成的影响。在μM浓度下,valinomycin、nigericin和CCCP能快速抑制蛋白质合成,而anti - ycin- a或DCCD的抑制速度较慢。蛋白质合成停止的开始与细胞内ATP含量下降20-30%一致。在没有葡萄糖或2-脱氧葡萄糖存在的情况下孵育1小时后,没有发现蛋白质合成或ATP下降的抑制作用。结果表明,缬霉素、尼日尔霉素或CCCP的抑制作用不是由于它们对通过质膜的K+和/或H+通量的影响。在pH 8.2条件下培养的网织红细胞对尼日利亚菌素、CCCP、DCCD或抗霉素- a蛋白合成的抑制作用要小得多。另一方面,在这种碱性pH下,对葡萄糖的饥饿会导致蛋白质合成的高度抑制。因此,离子载体抑制蛋白质的合成是由于其对线粒体ATP合成的解偶联作用。在高pH条件下,糖酵解活性较高,糖酵解产生的ATP可以在一定程度上弥补氧化磷酸化过程中损失的ATP。
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Effects of ionophores and metabolic inhibitors on protein synthesis in rabbit reticulocytes

The effect of some ionophores and metabolic inhibitors on reticulocytes protein synthesis was examined. At μM concentrations, valinomycin, nigericin and CCCP rapidly inhibit protein synthesis, while with antimycin-A or DCCD the inhibition is rather slow. The onset of the arrest of protein synthesis coincides with a 20–30% drop in the intracellular ATP content. No inhibition in protein synthesis or drop in ATP was found after 1 h incubation without glucose or in the presence of 2-deoxyglucose. It is shown that the inhibition by valinomycin, nigericin or CCCP is not due to their effect on K+ and/or H+ fluxes through the plasma membrane. Reticulocytes incubated at pH 8.2 show much lower inhibition of protein synthesis by nigericin, CCCP, DCCD or antimycin-A. On the other hand, at this alkaline pH, starvation to glucose causes high inhibition of protein synthesis. It is concluded that the ionophores inhibit protein synthesis due to their uncoupling effect on mitochondrial ATP synthesis. At high pH, the glycolytic activity is relatively high, and the ATP generated by the glycolysis can compensate to some degree for the ATP loss in the oxidative phosphorylation.

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