Nissim I, Yudkoff M, Brosnan J T
Division of Biochemical Development, The Children's Hospital of Philadelphia, Philadelphia, Pennsylvania, USA.
J Biol Chem. 1996 Dec 6;271(49):31234-42. doi: 10.1074/jbc.271.49.31234.
We have utilized both [5-15N]glutamine and [3-13C] pyruvate as metabolic tracers in order to: (i) examine the effect of pH, glucagon (GLU), or insulin on the precursor-product relationship between 15NH3, [15N]citrulline, and, thereby, [15N]urea synthesis and (ii) elucidate the mechanism(s) by which pyruvate stimulates [15N] urea synthesis. Hepatocytes isolated from rat were incubated at pH 6.8, 7.4, or 7.6 with 1 mM [5-15N]glutamine and 0.1 mM 14NH4Cl in the presence or the absence of [3-13C] pyruvate (2 mM). A separate series of experiments was performed at pH 7.4 in the presence of insulin or GLU. 15NH3 enrichment exceeded or was equal to that of [15N]citrulline under all conditions except for pH 7.6, when the 15N enrichment in citrulline exceeded that in ammonia. The formation of [15N]citrulline (atom % excess) was increased with higher pH. Flux through phosphate-dependent glutaminase (PDG) and [15N]urea synthesis were stimulated (p < 0.05) at pH 7.6 or with GLU and decreased (p < 0.05) at pH 6.8. Insulin had no significant effect on flux through PDG or on [15N]urea synthesis. Decreased [15N]urea production at pH 6.8 was associated with depleted aspartate and glutamate levels. Pyruvate attenuated this decrease in the aspartate and glutamate pools and stimulated [15N]urea synthesis. Production of Asp from pyruvate was increased with increasing medium pH. Approximately 80% of Asp was derived from [3-13C]pyruvate regardless of incubation pH or addition of hormone. Furthermore, approximately 20, 40, and 50% of the mitochondrial N-acetylglutamate (NAG) pool was derived from [3-13C]pyruvate at pH 6.8, 7.4, and 7.6, respectively. Both the concentration and formation of [13C]NAG from [3-13C]pyruvate were increased (p < 0.05) with glucagon and decreased (p < 0.05) with insulin or at pH 6.8. The data suggest a correlation between changes in [15N]urea synthesis and alterations in the level and synthesis of [13C]NAG from pyruvate. The current observations suggest that the stimulation of [15N]urea synthesis in acute alkalosis is mediated via increased flux through PDG and subsequent increased utilization of [5-15N] of glutamine for [15N]citrulline synthesis and/or increased synthesis of NAG from glutamate and pyruvate. The opposite may have occurred in acute acidosis. Glucagon, but not insulin, stimulated [15N]urea synthesis via increased flux through PDG and synthesis of NAG. Pyruvate stimulated urea synthesis via increased availability of aspartate and/or increased synthesis of NAG. The formation of NAG and aspartate from pyruvate are both pH-sensitive processes.
我们使用了[5-15N]谷氨酰胺和[3-13C]丙酮酸作为代谢示踪剂,目的是:(i) 研究pH值、胰高血糖素(GLU)或胰岛素对15NH3、[15N]瓜氨酸之间前体-产物关系的影响,进而研究[15N]尿素合成的影响;(ii) 阐明丙酮酸刺激[15N]尿素合成的机制。从大鼠分离的肝细胞在pH 6.8、7.4或7.6条件下,于1 mM [5-15N]谷氨酰胺和0.1 mM 14NH4Cl存在或不存在[3-13C]丙酮酸(2 mM)的情况下进行孵育。在pH 7.4条件下,于胰岛素或GLU存在的情况下进行了另一系列实验。除pH 7.6外,在所有条件下15NH3的富集均超过或等于[15N]瓜氨酸的富集,在pH 7.6时,瓜氨酸中的15N富集超过氨中的15N富集。[15N]瓜氨酸(原子%过量)的形成随pH值升高而增加。在pH 7.6或存在GLU时,通过磷酸依赖性谷氨酰胺酶(PDG)的通量和[15N]尿素合成受到刺激(p < 0.05),而在pH 6.8时则降低(p < 0.05)。胰岛素对通过PDG的通量或[15N]尿素合成没有显著影响。在pH 6.8时[15N]尿素生成减少与天冬氨酸和谷氨酸水平降低有关。丙酮酸减弱了天冬氨酸和谷氨酸池的这种减少,并刺激了[15N]尿素合成。丙酮酸生成天冬氨酸随培养基pH值升高而增加。无论孵育pH值或激素添加情况如何,约80%的天冬氨酸来自[3-13C]丙酮酸。此外,在pH 6.8、7.4和7.6时,线粒体N-乙酰谷氨酸(NAG)池分别约20%、40%和50%来自[3-13C]丙酮酸。胰高血糖素使[3-13C]丙酮酸生成[13C]NAG的浓度和生成量增加(p < 0.05),胰岛素或在pH 6.8时则降低(p < 0.05)。数据表明[15N]尿素合成的变化与丙酮酸生成[13C]NAG的水平和合成的改变之间存在相关性。当前观察结果表明,急性碱中毒时[15N]尿素合成的刺激是通过PDG通量增加以及随后谷氨酰胺的[5-15N]用于[15N]瓜氨酸合成的利用率增加和/或谷氨酸和丙酮酸合成NAG增加介导的。急性酸中毒时可能发生相反情况。胰高血糖素而非胰岛素通过增加PDG通量和NAG合成刺激[15N]尿素合成。丙酮酸通过增加天冬氨酸的可用性和/或增加NAG合成刺激尿素合成。丙酮酸生成NAG和天冬氨酸都是对pH敏感的过程。
