正常和酸中毒大鼠离体灌注肾脏对谷氨酰胺和谷氨酸的代谢

Metabolism of glutamine and glutamic acid by isolated perfused kidneys of normal and acidotic rats.

作者信息

Hems D A

出版信息

Biochem J. 1972 Dec;130(3):671-80. doi: 10.1042/bj1300671.

DOI:10.1042/bj1300671

PMID:4146451

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1174505/

Abstract

When isolated kidneys from fed rats were perfused with glutamine the rate of ammonia release at pH7.4 (110-360mumol/h per g dry wt.) was one to two times that of glutamine removal. Glucose formation from 5mm-glutamine was 16mumol/h per g. If kidneys were perfused with glutamine at pH7.1 (10-13mm-sodium bicarbonate) there was no increase in glutamine removal or in the formation of ammonia or glucose. 2. When isolated kidneys from fed rats were perfused with glutamate at pH7.4, glucose formation was 59mumol/h per g, glutamine formation was 182mumol/h per g and ammonia release was negligible. At pH7.1 glutamine synthesis was inhibited and formation of ammonia and glucose were increased. 3. In perfused kidneys from acidotic rats, which had received 1.5% (w/v) NH(4)Cl to drink for 7-10 days, gluconeogenesis from glutamine was enhanced (101mumol/h per g). Glutamine removal and ammonia formation were also increased, compared with the rates in perfused kidney from normal rats. The extra glutamine consumed was equivalent to the extra glucose formed. 4. When the kidney from the 7-10-day-acidotic rat was perfused with glutamate gluconeogenesis was increased (113mumol/h per g). Synthesis of glutamine was decreased, and ammonia release was approximately equal to the rate of glutamate removal. 5. The time-course of these metabolic alterations was investigated after the rapid induction of acidosis by infusion of 0.25m-HCl into the right side of the heart. The increase in gluconeogenesis from glutamine developed gradually over several hours. When kidneys from 6h-acidotic rats were perfused with glutamate, formation of glucose and glutamine were both rapid. 6. In acidotic rat kidneys perfused with glutamine, tissue concentrations of glutamate and glucose 6-phosphate were increased compared with those in control perfused kidneys from non-acidotic rats. 7. The results are discussed in terms of control of the renal metabolism of glutamine. In particular, it is suggested that in acidotic rats glucose formation is the major fate of the carbon of the extra glutamine utilized by the kidney, and that inhibition of glutamine synthetase could contribute to the increase in intracellular ammonia concentration in the kidney.

摘要

用谷氨酰胺灌注喂食大鼠的离体肾脏时，在pH7.4条件下氨释放速率（每克干重110 - 360微摩尔/小时）是谷氨酰胺清除速率的一到两倍。由5毫摩尔谷氨酰胺生成葡萄糖的速率为每克16微摩尔/小时。如果在pH7.1（10 - 13毫摩尔碳酸氢钠）条件下用谷氨酰胺灌注肾脏，谷氨酰胺清除、氨生成或葡萄糖生成均无增加。2. 用谷氨酸在pH7.4条件下灌注喂食大鼠的离体肾脏时，葡萄糖生成速率为每克59微摩尔/小时，谷氨酰胺生成速率为每克182微摩尔/小时，氨释放可忽略不计。在pH7.1时，谷氨酰胺合成受到抑制，氨和葡萄糖生成增加。3. 在给酸中毒大鼠饮用1.5%（w/v）氯化铵7 - 10天的情况下，其灌注肾脏中由谷氨酰胺进行的糖异生增强（每克101微摩尔/小时）。与正常大鼠灌注肾脏的速率相比，谷氨酰胺清除和氨生成也增加。额外消耗的谷氨酰胺量与生成的额外葡萄糖量相当。4. 用谷氨酸灌注7 - 10天龄酸中毒大鼠的肾脏时，糖异生增加（每克113微摩尔/小时）。谷氨酰胺合成减少，氨释放速率大致等于谷氨酸清除速率。5. 通过向心脏右侧注入0.25摩尔盐酸快速诱导酸中毒后，研究了这些代谢改变的时间进程。由谷氨酰胺进行的糖异生增加在数小时内逐渐发展。用谷氨酸灌注6小时龄酸中毒大鼠的肾脏时，葡萄糖和谷氨酰胺生成均迅速。6. 用谷氨酰胺灌注酸中毒大鼠肾脏时，与非酸中毒对照灌注肾脏相比，组织中谷氨酸和6 - 磷酸葡萄糖浓度增加。7. 根据谷氨酰胺肾脏代谢的控制对结果进行了讨论。特别指出，在酸中毒大鼠中，葡萄糖生成是肾脏利用的额外谷氨酰胺碳的主要归宿，并且谷氨酰胺合成酶的抑制可能导致肾脏细胞内氨浓度升高。