Author:
Halperin Mitchell L.,Goguen Jeannette M.,Chen Ching-Bun
Abstract
The purpose of this study was to explore the interrelations among energy turnover, the selection of fuels, and the production of ammonium (NH4+) in the kidney during chronic metabolic acidosis. Experiments were carried out in dogs because of the extensive background literature in this species. The specific question addressed was, will a diminished rate of oxidation of fatty acids in the kidney permit the rate of extraction of glutamine and the production of NH4+ to rise? Chronic metabolic acidosis was induced by the ingestion of NH4Cl for 5 days to stimulate the rate of production of NH4+. Insulin was administered to diminish the delivery of fatty acids to the kidney. The concentration of fatty acids in plasma fell from 350 ± 104 to 188 ± 45 μM, yet there was no significant increase in the rates of production of NH4+, consumption of oxygen, or extraction of glutamine after insulin. Notwithstanding, there was a significant rise in the rate of extraction of lactate by the kidney when expressed per 100-mL glomerular filtration rate. Because there was a significant decline in the level of glutamine in plasma (512 ± 76 to 359 ± 42 μM) 1 h after giving insulin, a second series of experiments was carried out. When glutamine was infused after the insulin period, there was no longer a fall in the concentration of this metabolite. Notwithstanding, the rates of extraction of glutamine and production of NH4+ were not higher in the presence of insulin. These data suggest that the rate of oxidation of fatty acids did not limit the rate of oxidation of glutamine in the kidneys of fed dogs with chronic metabolic acidosis. Rather, there was an enhanced oxidation of lactate when the delivery of fatty acids was decreased.Key words: acid–base balance, ammonium, energy turnover, glutamine metabolism, insulin, oxygen consumption.
Publisher
Canadian Science Publishing
Subject
Physiology (medical),Pharmacology,General Medicine,Physiology
Cited by
1 articles.
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