Ovine fetal and maternal glycogen during fasting.

The present study was undertaken to assess the role of hepatic glycogen metabolism in fetal and maternal glucose homeostasis during a prolonged fast in the pregnant ewe. A control fed group of 13 ewes and 16 fetuses were compared to a 5-day-fasted group of 13 ewes and 17 fetuses, studied at 125 days gestation (term = 147 days). Tissue samples were obtained during pentobarbital anesthesia and frozen in liquid nitrogen. Protein, glycogen, active phosphorylase and total phosphorylase activity were determined. Fetal weight (3.61 vs. 2.86 kg) was decreased in the fasted group (p less than 0.001) while fetal hepatic glycogen was unchanged (59.8 vs. 52.4 mg/g tissue). Maternal liver glycogen decreased during fasting (38.2 vs. 4.0 mg/g tissue, p less than 0.001). Fetal active phosphorylase and total phosphorylase did not change between fed and fasted states (fed active phosphorylase 398 vs. fasted 441 and fed total phosphorylase 510 vs. fasted 574 mumol/h/g tissue). The maternal active phosphorylase and total phosphorylase decreased between fed and fasted (active phosphorylase 690 vs. 238 and total phosphorylase 981 vs. 599 mumol/h/g tissue, p less than 0.001). During fasting, the pregnant ewe depletes her hepatic glycogen stores, associated with a reduction in glycogen catabolizing enzyme activity. The fetus maintains a relatively large glycogen catabolizing enzyme activity, a relatively large glycogen reserve and substantial phosphorylase activity.

Effects of fasting on gluconeogenic enzymes in the ovine fetus.

Fetal and maternal sheep were studied to determine whether changes in gluconeogenic enzyme activities could be detected in the liver and/or kidney associated with maternal nutritional deprivation. Thirteen ewes and 16 fetuses were sacrificed in the fed state, while 13 ewes with 17 fetuses were sacrificed after 5 days of fasting, all at 125 days gestation (term = 147 days). Fetal weight was decreased in the fasted versus fed group (2.86 +/- 0.56 versus 3.61 +/- 0.58 kg, p less than 0.001). Tissues were analyzed for glucose-6-phosphatase, fructose-1,6-diphosphatase, pyruvate carboxylase, phosphoenolpyruvate carboxykinase, glutamate oxaloacetate aminotransferase, and glutamate pyruvate aminotransferase. In maternal liver, four of the six enzymes increased significantly during fasting, whereas none of the enzymes increased in maternal kidney. In fetal hepatic tissue, five of the six enzymes (with the exception of pyruvate carboxylase) increased during maternal fasting and three of the enzymes increased in renal tissue. These data are consistent with the potential for increased rates of gluconeogenesis in the ovine fetus during periods of compromised maternal nutrition.

An estimate of the effect of acute exsanguination on catecholamine and glucoregulatory hormone concentrations in the newborn rat.

We have determined the effect of acute exsanguination on plasma concentrations of glucose, insulin, glucagon, dopamine, epinephrine and norepinephrine in neonatal Sprague-Dawley rats. This was done by comparing concentrations of these substances in aliquots of blood obtained within 10 s of the initial bleeding to those in blood obtained over the next 50 s of the blood drawing process. Concentrations of glucose and insulin showed no change between early and late samples. Glucagon concentrations showed variable responses dependent upon the age of the animal. Concentrations were unchanged at birth, but increased 22% and 58% at 1 and 6 h of age respectively. Catecholamine concentrations increased greatly (57 to 215%) between blood aliquots regardless of age at the time of sampling. These findings indicate that hormonal responses occur during the relatively brief period of blood drawing in Sprague-Dawley rats, pointing out further limitations inherent in the use of small animals for acute metabolic and hormonal studies.