Diurnal variations in activity of four pyridoxal enzymes in rat liver during metabolic transition from high carbohydrate to high protein diet

Abstract

The diurnal variations in enzyme activities including tyrosine aminotransferase (TAT), ornithine decarboxylase (ODC), ornithine aminotransferase (OAT) and serine dehydratase (SDH) have been studied in rats trained to a 2 hour meal feeding schedule (″2+22″) during metabolic transition from 12.5 to 60% protein diets over a period of 21 days. Although the maximal TAT activity on the first day was slightly lower compared with other days, both TAT and ODC activities adapted rapidly to the increased dietary protein from the first day. The responses of TAT and ODC to the food were so rapid that the maximal value was observed only 4 hrs after the onset of feeding. After each feeding ODC activity decreased rapidly after 4 hours, while TAT activity declined only after 6 hours had elapsed. No clear diurnal rhythm was observed in either OAT or SDH, though OAT activity tended to decrease from the beginning of the dark period and to resume a slow adaptation after about four hours. In contrast to ODC and TAT both OAT and SDH required about 7 days to fully adapt to the high protein diet. The activities of the four enzymes were also compared after 4 groups of rats had been adapted to the ″2+22″ feeding of 12.5, 30 and 60% protein diets and to 60% diet, ad libitum , respectively. The enzyme activities were not directly proportional to the protein content of the diets although higher activity was observed on the high protein diets. The diurnal variations in both TAT and ODC were observed in all ″2+22″ groups although the timing of the peak values were slightly different from each other. The maximal activities of TAT were found at earlier times in 12.5 and 30% protein groups than in the 60% protein group. The peak time for ODC activity was found at a later time in the 12.5% protein group than in rats fed 30% and 60% protein. Ad libitum rats fed 60% protein maintained relatively high levels of TAT activity compared to the rats on the schedule. However, the maximal activity of ODC on the 60% ″2+22″ protein diet ad libitum was so low that a diurnal rhythm was not clearly evident.