Cellular energy metabolism during fetal development: IV. Fatty acid activation, acyl transfer and fatty acid oxidation during development of the chick and rat

Abstract

We have investigated developmental profiles of ATP-dependent palmityl-CoA synthetase, acetyl-CoA synthetase, palmitylcarnitine transferase, and fatty acid oxidation in heart and liver of developing chicks and rats. Palmityl-CoA synthetase activity of rat liver and heart homogenates increased 6- to 10-fold during the first postnatal week. Chick embryo heart activity peaked between 13 and 16 days of development. The activity of embryonic chick livers was bimodal with highest activity seen at 7 and 16 days of development. Posthatching values were approximately 50–75% of the peak embryonic levels. Acetyl-CoA synthetase activity of rat liver and heart homogenates was low but also showed developmental increases following birth. Acetyl-CoA synthetase activity of chick embryonic hearts was greatest at 16 days of development. Palmitylcarnitine transferase activity of rat liver and heart homogenates showed a striking increase during the first week of life. Chick heart activity was similar to that observed for palmityl-CoA synthetase with a peak between 13 and 16 days of embryonic development. Coincident with the postnatal rise in fatty acid activation and palmitylcarnitine transferase activity in developing rats, the oxidation of palmityl-CoA plus carnitine and of palmitylcarnitine increased from barely measurable levels at birth to adult levels by 30 days of age. The increases that we observe probably relate to changes in the specific activity of the enzymes as well as to an increase in the absolute number of mitochondria during development.