Galactose removal kinetics during hypoxia in perfused pig liver: reduction of Vmax, but not of intrinsic clearance Vmax/Km

Abstract

The galactose elimination kinetics was examined in five perfused pig livers of 1.2 kg during hypoxia induced by administration of 2, 4 or 7% oxygen in the oxygenator instead of 20% as used in nine control experiments, previously published [1]. Galactose was given as four to five successive constant infusion rates so that successive steady‐state period with galactose concentrations from 0.04 to 5 mmol l^‐1 were obtained in each experiment. From the relationship between the calculated elimination rate and the perfusate galactose concentration, values of the maximal elimination rate V_max and the half saturation concentration K_m were calculated. Both V_max and K_m were reduced by hypoxia: the lower the oxygen supply, the greater the reduction. V_max was about 0.08 mmol min^‐1 kg^‐1 liver at 2% oxygen and about 0.18 mmol min^‐1 kg^‐1 liver at 4–7% oxygen; both being significantly lower than the value of 0.43 mmol min^‐1 kg^‐1 liver at 20% oxygen. K_m was about 0.07 mmol l^‐1 at 2% oxygen and 0.13 mmol 1^‐1 at 7% oxygen; both significantly lower than the value of 0.23 mmol l^‐1 at 20% oxygen. A nearly parallel reduction of liver ATP concentration and galactose V_max indicates that the galactose V_max may reflect the phosphorylation capacity of the liver cells. The V_max/K_m ratio (intrinsic hepatic clearance) was unchanged during hypoxia.