The effect of lysine on gluconeogenesis from lactate in rat hepatocytes.

1. In freshly prepared isolated rat liver cells there is a lag in gluconeogenesis from lactate. The magnitude of the lag increases with increasing lactate concentration. 2. The lag is virtually abolished by lysine. 3. A few other amino acids (tyrosine, arginine, asparagine, ornithine) and NH(4)Cl had effects similar to, but less pronounced than, lysine during the early stage of incubation. Lysine was unique in accelerating gluconeogenesis beyond the lag period. 4. The effects of the accelerators are not additive. 5. Glycine, serine, threonine, cysteine, tryptophan and histidine at 2mm markedly inhibit (>20%) gluconeogenesis from lactate. 6. Oleate, which promotes gluconeogenesis from lactate by supplying acetyl-CoA required for the pyruvate carboxylase reaction, had no effect on the lag, yet oleate oxidation showed no lag. 7. Preincubation of cells decreased the lag and decreased the magnitude of the lysine effect. 8. Pyruvate (added at 1mm to give an initial [lactate]/[pyruvate] ratio of 10) also abolished the lag and decreased the lysine effect by about 50%. 9. Lysine reversed the inhibition by ethanol of gluconeogenesis from lactate. 10. All accelerators increased the rate of re-oxidation of cytosolic NADH as shown by a rapid re-adjustment of the [lactate]/[pyruvate] ratio on addition of 10mm-lactate. 11. The accelerated rates of gluconeogenesis are associated with an increased formation of aspartate and glutamate and especially alanine. 12. The existence of the lag period can be explained on the basis of the fact that the accumulation of pyruvate during the lag diverts oxaloacetate from gluconeogenesis to malate formation, i.e. that the re-oxidation of cytosolic NADH takes precedence over gluconeogenesis. This means that much oxaloacetate formed by the pyruvate carboxylase reaction has to be transferred twice from the mitochondria to the cytosol by the aspartate shuttle. Under these conditions the operation of the shuttle limits the rate of gluconeogenesis from lactate. Lysine and other accelerators may increase the effectiveness of the shuttle by providing components of the aspartate aminotransferases involved. The question of why lysine specifically accelerates gluconeogenesis beyond the lag period is discussed.