TY - JOUR
T1 - Response of hepatic amino acid consumption to chronic metabolic acidosis
AU - Boon, L.
AU - Blommaart, P. J.
AU - Meijer, A. J.
AU - Lamers, W. H.
AU - Schoolwerth, A. C.
PY - 1996
Y1 - 1996
N2 - In a previous paper, we showed that an inhibition of amino acid transport across the liver plasma membrane is responsible for the decrease in urea synthesis in acute metabolic acidosis. We have now studied the mechanism responsible for the decline in urea synthesis in chronic acidosis. Chronic metabolic acidosis and alkalosis were induced by feeding three groups of rats HCl, NH4Cl, and NaHCO3 (8 mmol/day) for 7 days. Amino acids and NH4+ were measured in portal vein, hepatic vein, and aortic plasma, and arteriovenous differences were calculated. The rates of urinary urea and NH4+ excretion were also determined. Hepatic amino acid consumption was lower in both HCl and NH4Cl acidosis compared with NaHCO3-fed rats. Glutamine release was not different in the three conditions. Because intrahepatic concentrations of amino acids and intracellular protein degradation were similar under these conditions, it can be concluded that at low blood pH amino acid catabolism may be inhibited and might explain the observed decrease in urea excretion in HCl, but not NH4Cl, acidosis; urea excretion was comparable in the NH4Cl and NaHCO3 groups presumably because the increased NH4+ load in the former group was processed, uninhibited, to urea. Amino acids not used by the liver in acidosis could account for the 25-fold increase in NH4+ excretion in HCl and NH4Cl compared with alkalosis (P < 0.05). These findings indicate that urea synthesis is decreased in chronic HCl acidosis. They show that urea synthesis is controlled in chronic, as in acute, acidosis by amino acid uptake by the liver and/or intrahepatic degradation and that the ornithine cycle per se has only minor control of acid-base homeostasis
AB - In a previous paper, we showed that an inhibition of amino acid transport across the liver plasma membrane is responsible for the decrease in urea synthesis in acute metabolic acidosis. We have now studied the mechanism responsible for the decline in urea synthesis in chronic acidosis. Chronic metabolic acidosis and alkalosis were induced by feeding three groups of rats HCl, NH4Cl, and NaHCO3 (8 mmol/day) for 7 days. Amino acids and NH4+ were measured in portal vein, hepatic vein, and aortic plasma, and arteriovenous differences were calculated. The rates of urinary urea and NH4+ excretion were also determined. Hepatic amino acid consumption was lower in both HCl and NH4Cl acidosis compared with NaHCO3-fed rats. Glutamine release was not different in the three conditions. Because intrahepatic concentrations of amino acids and intracellular protein degradation were similar under these conditions, it can be concluded that at low blood pH amino acid catabolism may be inhibited and might explain the observed decrease in urea excretion in HCl, but not NH4Cl, acidosis; urea excretion was comparable in the NH4Cl and NaHCO3 groups presumably because the increased NH4+ load in the former group was processed, uninhibited, to urea. Amino acids not used by the liver in acidosis could account for the 25-fold increase in NH4+ excretion in HCl and NH4Cl compared with alkalosis (P < 0.05). These findings indicate that urea synthesis is decreased in chronic HCl acidosis. They show that urea synthesis is controlled in chronic, as in acute, acidosis by amino acid uptake by the liver and/or intrahepatic degradation and that the ornithine cycle per se has only minor control of acid-base homeostasis
M3 - Article
C2 - 8760261
SN - 0002-9513
VL - 271
SP - F198-F202
JO - American Journal of Physiology
JF - American Journal of Physiology
IS - 1 Part 2
ER -