Gluconeogenesis in tumor-influenced hepatocytes.

The growth of a tumor leads to alterations in host carbohydrate metabolism. In this study we examined gluconeogenic capacity and amino acid transport in tumor-influenced and control rat hepatocytes. Serum glucose level decreased with increasing tumor burden and a significant correlation (r = -0.80) was observed. Hepatic glycogen content was similar in both groups after an overnight fast. Endogenous glucose production was 27% higher in tumor-influenced hepatocytes. The presence of 10mM of alanine led to 72% stimulation of gluconeogenesis in tumor-influenced hepatocytes as compared to 48% stimulation in control hepatocytes. The same trends were present when lactate was used as a substrate. Alanine transport into the cells was increased in tumor-influenced hepatocytes by 55% +/- 5% at a physiologic level of substrate. In conclusion, gluconeogenesis from alanine and lactate is significantly increased in tumor-influenced hepatocytes despite decreased serum glucose levels. This is associated with increased gluconeogenic capacity and accelerated alanine transport.