A method is introduced for estimating the contribution of gluconeogenesis to glucose production. 2H2O is administered orally to achieve 0.5% deuterium enrichment in body water. Enrichments are determined in the hydrogens bound to carbons 2 and 6 of blood glucose and in urinary water. Enrichment at carbon 6 of glucose is assayed in hexamethylenetetramine, formed from formaldehyde produced by periodate oxidation of the glucose. Enrichment at carbon 2 is assayed in lactate formed by enzymatic transfer of the hydrogen from glucose via sorbitol to pyruvate. The fraction gluconeogenesis contributes to glucose production equals the ratio of the enrichment at carbon 6 to that at carbon 2 or in urinary water. Applying the method, the contribution of gluconeogenesis in healthy subjects was 23-42% after fasting 14 h, increasing to 59-84% after fasting 42 h. Enrichment at carbon 2 to that in urinary water was 1.12 +/- 0.13. Therefore, the assumption that hydrogen equilibrated during hexose-6-P isomerization was fulfilled. The 3H/14C ratio in glucose formed from [3-3H,3-14C]lactate given to healthy subjects was 0.1 to 0.2 of that in the lactate. Therefore equilibration during gluconeogenesis of the hydrogen bound to carbon 6 with that in body water was 80-90% complete, so that gluconeogenesis is underestimated by 10-20%. Glycerol's contribution to gluconeogenesis is not included in these estimates. The method is applicable to studies in humans of gluconeogenesis at safe doses of 2H2O.
B R Landau, J Wahren, V Chandramouli, W C Schumann, K Ekberg, S C Kalhan