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Title: Role of adenosine monophosphate in regulation of metabolic pathways of perfused rat liver. Author: Hunter AR, Jefferson LS. Journal: Biochem J; 1969 Feb; 111(4):537-45. PubMed ID: 5774478. Abstract: 1. By perfusion of rat livers with 3mm-AMP in the perfusion medium we obtain increased intracellular concentrations of AMP. 2. These high intracellular concentrations of AMP lead to an increased output of glucose and urea into the perfusion medium. 3. The increased output of glucose in livers from fed rats is brought about primarily by an AMP-stimulated breakdown of liver glycogen. In livers from starved rats the increase in glucose output is not as great, reflecting the low contents of glycogen in livers from starved rats. 4. AMP inhibits gluconeogenesis from lactate in perfused livers. In the presence of high concentrations of lactate, however, the counteracting effects of AMP to increase glycogenolysis and to inhibit gluconeogenesis result in little change in the net glucose output. 5. The increased urea output is brought about by increased breakdown of amino acids that are present in the perfusion medium. In livers from starved rats the overall urea production is much higher, indicating increased catabolism of amino acids and other nitrogenous substrates in the absence of carbohydrate substrates. 6. AMP causes an inhibition of incorporation of labelled precursors into protein and nucleic acid. This may result from increased catabolism of precursors of proteins and nucleic acids as reflected by the more rapid breakdown of nitrogenous compounds. In support of this hypothesis, cell-free systems for amino acid incorporation isolated from livers perfused with and without AMP are equally capable of supporting protein synthesis. 7. The labelling pattern of RNA in perfused livers corresponds very closely to those found by pulse-labelling in vivo. AMP in no way alters the qualitative nature of the labelling patterns. 8. We consider these results as supporting evidence for the role of the concentration ratio of AMP to ATP in controlling the metabolic pathways that lead to the formation of ATP.[Abstract] [Full Text] [Related] [New Search]