Plasma Concentration of Urea, Ammonia, Glutamine Around Calving, and the Relation of Hepatic Triglyceride, to Plasma Ammonia Removal and Blood Acid-Base Balance

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Plasma Concentration of Urea, Ammonia, Glutamine Around Calving, and the Relation of Hepatic Triglyceride, to Plasma Ammonia Removal and Blood Acid-Base Balance

L. H. Zhu ¹, L. E. Armentano ¹, D. R. Bremmer ¹, R. R. Grummer ¹, and S. J. Bertics ¹

¹ Department of Dairy Science, University of Wisconsin, 1675 Observatory Drive, Madison, 53706

Two experiments were conducted to test the following two hypotheses:1) fatty liver could hamper hepatic conversion of ammonia tourea and increase circulating ammonia or Gln% [Gln% =Gln * 100/(Gln + Glu)] in cows around parturition; 2)decreased ureagenesis might cause alkalosis and in turn reduceblood Ca.

In the first experiment, 14 Holstein cows were monitoredfrom 27 d prepartum to 35 d postpartum. There was a rise incirculating ammonia and Gln% at calving, suggesting an increasein ammonia passing to and through the liver. Stepwise regressionanalysis revealed the following relationship for plasma samplesat 22 h and liver triglyceride at 2 d postpartum: ammonia (µM)= 32.1 + 0.89 triglyceride (% DM), Gln% = 71.2 + 0.23 triglyceride(% DM) + 1.31 urea (mM). The positive correlation between livertriglyceride and plasma ammonia and Gln% suggests that hepatictri-glyceride accumulation might inhibit ureagenesis, therebyincreasing ammonia concentration at the perivenous hepatocyteswhere Gln synthesis occurs and increasing ammonia concentrationin blood leaving the liver.

In the second experiment, 28 ratswere used to determine whether hepatic triglyceride accumulation,induced by choline deficiency, affects urinary ammonia N andblood pH homeostasis. There was a trend for a positive correlationbetween urinary ammonia N and liver triglyceride. No correlationbetween liver triglyceride and blood pH, bicarbonate, pCO₂ orplasma Ca was found.

In conclusion, hepatic triglyceride accumulationmay inhibit ureagenesis and result in increased circulatingammonia, Gln% and urinary ammonia N in vivo. Hepatic triglycerideaccumulation did not affect blood pH homeostasis.

Key Words: liver triglyceride • plasma ammonia • plasma glutamine • acid-base balance

Submitted on March 4, 1999
Accepted on December 1, 1999

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