腺嘌呤核苷酸转位酶对氧化磷酸化来说是限速因素吗?
Is the adenine nucleotide translocator rate-limiting for oxidative phosphorylation?
作者信息
Stubbs M, Vignais P V, Krebs H A
出版信息
Biochem J. 1978 May 15;172(2):333-42. doi: 10.1042/bj1720333.
Abstract
- The effects of atractyloside and carboxyatractyloside (between 5 and 40mum) on O(2) uptake, glucose synthesis, urea synthesis, the adenine nucleotide content and the intracellular K(+) concentration were measured in isolated hepatocytes. 2. Urea synthesis was much less inhibited than glucose synthesis by both atractylosides. Measurements of intermediary metabolites of carbohydrate metabolism in freeze-clamped liver after injection of atractyloside into rats indicate that inhibition of gluconeogenesis is due to interference at the cytosolic reactions requiring ATP (phosphoenolpyruvate carboxykinase and 3-phosphoglycerate kinase). 3. The decrease in [ATP]/[ADP]x[P(i)] after addition of atractyloside or carboxyatractyloside was restricted to the cytosol. 4. Dihydroxyacetone can be converted either into glucose with the consumption of 2mol of ATP (per mol of glucose) or into lactate with the production of 2mol of ATP. In the presence of high concentrations of atractyloside and carboxyatractyloside more ATP was produced than was used for the synthesis of glucose from dihydroxyacetone, probably for the maintenance of intracellular [K(+)]. 5. When the rates of respiration were altered by changing substrates, the degrees of inhibition of respiration and translocation by a given concentration of the atractylosides were the same, whereas at a given concentration of HCN the degree of inhibition was high at higher initial rates, and low at lower initial rates. 6. Inhibition of a complex series of reactions by atractyloside does not necessarily indicate that the translocator is a rate-limiting step in that sequence as Th. P. M. Akerboom, H. Bookelman & J. M. Tager [(1977) FEBS. Lett.74, 50-54] assume. This point is discussed.
摘要
- 在分离的肝细胞中测定了苍术苷和羧基苍术苷(5至40μmol)对氧气摄取、葡萄糖合成、尿素合成、腺嘌呤核苷酸含量和细胞内钾离子浓度的影响。2. 两种苍术苷对尿素合成的抑制作用远小于对葡萄糖合成的抑制作用。给大鼠注射苍术苷后,对冷冻钳夹肝脏中碳水化合物代谢中间产物的测量表明,糖异生的抑制是由于对需要ATP的胞质反应(磷酸烯醇式丙酮酸羧激酶和3-磷酸甘油酸激酶)的干扰。3. 添加苍术苷或羧基苍术苷后,[ATP]/[ADP]×[Pi]的降低仅限于细胞质。4. 二羟基丙酮可以消耗2摩尔ATP(每摩尔葡萄糖)转化为葡萄糖,也可以产生2摩尔ATP转化为乳酸。在高浓度的苍术苷和羧基苍术苷存在下,产生的ATP多于用于从二羟基丙酮合成葡萄糖的ATP,这可能是为了维持细胞内[K⁺]。5. 当通过改变底物来改变呼吸速率时,给定浓度的苍术苷对呼吸和转运的抑制程度是相同的,而在给定浓度的HCN下,初始速率较高时抑制程度高,初始速率较低时抑制程度低。6. 苍术苷对一系列复杂反应的抑制并不一定表明转运体是该序列中的限速步骤,正如Th. P. M. Akerboom、H. Bookelman和J. M. Tager[(1977) FEBS Lett.74, 50 - 54]所假设的那样。对此观点进行了讨论。
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