Urea synthesis in the liver and kidney of developing sheep

Abstract

In order to establish if the urea found in foetal fluids in sheep could be of foetal origin and whether there are changes in the ability of ovine liver to synthesise urea during foetal and postnatal development, the rates of urea production from ammonium and bicarbonate ions have been measured in liver and kidney slices from animals aged from 50 days conceptual age to 16 weeks after birth, and in pregnant and non-pregnant ewes. The activities of five enzymes directly involved in the biosynthesis of urea have also been determined. Urea was found to be synthesised by foetal liver from at least 50 days conceptual age at rates similar to those observed in adult ewes. Highest rates of urea synthesis per unit weight of liver were found immediately after birth. In the liver there were significant positive correlations between the rates of urea synthesis by slices and the activities of carbomoyl phosphate synthase (ammonia) (EC 2.7.2.5), argininosuccinate synthetase (EC 6.3.4.5) and argininosuccinate lyase EC 4.3.2.1). Ornithine carbomoyl transferase (EC 2.1.3.3) activity was highest in the livers of ruminating animals. Hepatic arginase activity (EC 3.5.3.1) was highest during the late foetal life and in the mature foetuses the activity was ten-fold greated than that in maternal liver. Urea was not synthesised from ammonia and bicarbonate in kidney slices and neither ornithine carbomoyl transferase activity nor argininosuccinate synthetase activity could be detected. The activity of renal arginase was at least 70 times less than that found in the liver and the highest activity was found in ruminating lambs. The changes observed in the activities of the urea cycle enzymes during development have been contrasted with those reported to occur in other species. It is concluded that there is no single factor regulating the activities of the five enzymes directly concerned with urea synthesis during development. The results support the hypothesis that in mammals the ability of the liver to synthesise urea in foetal life is related to renal development.