The application of microcalorimetry to the assessment of metabolic efficiency in isolated rat hepatocytes.

1. Heat output by suspensions of isolated rat hepatocytes was determined by using a modified batch-type microcalorimeter. 2. The ratio of O(2) uptake (determined polarographically) to heat output was used to assess the metabolic efficiency of isolated hepatocytes. 3. Cells from starved or fed rats incubated in either bicarbonate-buffered physiological saline containing gelatin, or bicarbonate-buffered physiological saline containing amino acids, serum albumin and glucose showed no significant difference with respect to the ratio of O(2) uptake to heat output. 4. For liver cells from 24h-starved rats, the addition of 10mm-dihydroxyacetone and 2.5mm-fructose significantly decreased the ratio of O(2) uptake to heat output from 1.94+/-0.05 in the controls to 1.52+/-0.04 and 1.54+/-0.01mumol/J respectively. 5. Glucagon (1mum), which slightly increased both O(2) uptake and heat output, did not significantly alter the ratio. 6. The addition of extracellular 10mm-NH(4)Cl and urease to provide an energetically wasteful cycle by ensuring hydrolysis of newly synthesized urea, lowered the ratio of O(2) uptake to heat output from 1.81+/-0.08 to 1.47+/-0.06mumol/J, indicating a reduced metabolic efficiency. 7. Metabolic efficiency in rats of different dietary regimen, age and genetically based obesity was also assessed. No differences in the ratio of O(2) uptake to heat output were found between liver cell suspensions prepared from rats maintained on colony diet and high-fat diet or sucrose-rich diet nor between animals ranging from 38 to 179 days of age. Comparison of the ratio of liver cell O(2) uptake to heat output between homozygote Zucker fa/fa obese rats and their lean littermates showed no significant difference. 8. It is concluded that the ratio of O(2) uptake to heat output for isolated hepatocytes is relatively constant unless perturbed by conditions that markedly enhance substrate cycling.