氯化铵和碳酸氢盐对分离的肝线粒体中谷氨酰胺酶活性的影响。
The effects of ammonium chloride and bicarbonate on the activity of glutaminase in isolated liver mitochondria.
作者信息
Joseph S K, McGivan J D
出版信息
Biochem J. 1978 Dec 15;176(3):837-44. doi: 10.1042/bj1760837.
Abstract
- Glutamine hydrolysis in liver mitochondria was studied by measuring the production of glutamate under conditions where this compound could not be further metabolized. 2. Glutaminase activity in intact mitochondria was very low in the absence of activators. 3. Glutamine hydrolysis was markedly stimulated by NH4Cl and also by HCO3- ions. 4. The stimulation by each of these compounds was much decreased if the mitochondria were uncoupled. 5. Maximum rates of glutamine hydrolysis required the addition of phosphate. A correlation was observed between the activity of glutaminase in the presence of NH4Cl plus HCO3- and the intramitochondrial content of ATP. 6. In disrupted mitochondria, NH4Cl stimulated glutaminase to a much smaller extent than in intact mitochondria. The NH4Cl stimulation in disrupted mitochondria was much increased by the addition of ATP. KHCO3 also stimulated glutaminase activity in disrupted mitochondria, and ATP increased the magnitude of this stimulation. 7. It was concluded that maximum rates of glutaminase activity in liver mitochondria require the presence of phosphate, ATP and either HCO3- or NH4+. A comparison of the results obtained on intact and broken mitochondria indicates that these effectors have a direct effect on the glutaminase enzyme system rather than an indirect effect mediated by changes in transmembrane ion gradients or in the concentrations of intramitochondrial metabolites.
摘要
- 通过在该化合物无法进一步代谢的条件下测量谷氨酸的生成,研究了肝线粒体中的谷氨酰胺水解。2. 在没有激活剂的情况下,完整线粒体中的谷氨酰胺酶活性非常低。3. NH4Cl以及HCO3-离子可显著刺激谷氨酰胺水解。4. 如果线粒体解偶联,这些化合物各自的刺激作用会大大降低。5. 谷氨酰胺水解的最大速率需要添加磷酸盐。观察到在存在NH4Cl加HCO3-的情况下谷氨酰胺酶的活性与线粒体内ATP含量之间存在相关性。6. 在破碎的线粒体中,NH4Cl对谷氨酰胺酶的刺激程度远小于完整线粒体。添加ATP可大大增强破碎线粒体中NH4Cl的刺激作用。KHCO3也可刺激破碎线粒体中的谷氨酰胺酶活性,而ATP可增加这种刺激的幅度。7. 得出的结论是,肝线粒体中谷氨酰胺酶活性的最大速率需要磷酸盐、ATP以及HCO3-或NH4+的存在。对完整线粒体和破碎线粒体所得结果的比较表明,这些效应物对谷氨酰胺酶系统有直接作用,而非通过跨膜离子梯度或线粒体内代谢物浓度的变化介导的间接作用。
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Control of hepatic mitochondrial CO2 fixation by glucagon, epinephrine, and cortisol.胰高血糖素、肾上腺素和皮质醇对肝脏线粒体二氧化碳固定的调控
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