Glyceroneogenesis was assessed in epididymal adipose tissue from rats adapted to a high protein, carbohydrate-free (HP) diet. All experiments were performed in the fed state. Adaptation to the HP diet induced a two-fold increase in the activity of adipose tissue phosphoenolpyruvate carboxykinase (PEPCK). In the absence of glucose, the conversion of 14C-pyruvate (0.2, 1.0 or 5.0 mM) to glyceride-glycerol was significantly higher in adipose tissue from HP-fed rats than in controls. In the presence of glucose, rates of glycerol synthesis in tissues from HP-fed rats did not differ significantly from those in controls. Incorporation of 14C-pyruvate into fatty acids, both in the presence and absence of glucose, was not affected by the diet. The conversion of 14C-glucose (5 mM) into either glyceride-glycerol or fatty acids did not differ in HP-fed and control rats at any of the concentrations of pyruvate utilized. The data provide further evidence for the adaptative nature of adipose tissue PEPCK and suggest that in situations of reduced availability of glucose in the diet, glyceroneogenesis may be important to maintain an adequate supply of alpha-glycerophosphate for esterification of diet-derived fatty acids.
Lipoprotein lipase activity in adipose tissue and muscle is modulated by changes in the pattern of food intake. We have measured total lipoprotein lipase activity in adipose tissue and muscle of male Wistar rats (N = 6-10), weighing 200-250 g (~12 weeks), during the refeeding/fasting state following 24 h of fasting. Lipoprotein lipase activity in tissue homogenates was evaluated using a [ 3 H]-triolein-containing substrate, and released [ 3 H]-free fatty acids were extracted and quantified by liquid scintillation. Adipose tissue lipoprotein lipase activity did not completely recover within 2 h of refeeding (60% of refed ad libitum values). Cardiac lipoprotein lipase activity remained increased even 2 h after refeeding (100% of refed ad libitum values), whereas no significant changes were observed in the soleus and diaphragm muscles. Adipose tissue lipoprotein lipase activities were consistently higher than the highest skeletal muscle or heart values. It is therefore likely that adipose tissue, rather than muscle makes the major contribution to triacylglycerol clearance. There was concomitant relatively high lipoprotein lipase activity in both adipose tissue and cardiac muscle during the first few hours of refeeding, therefore cardiac muscle may contribute significantly to triacylglycerol clearance during this period. The results suggest that during fasting, increased lipoprotein lipase activity provides a complementary source of free fatty acids from circulating triacylglycerol, allowing the heart to maintain its continuous, highenergy expenditure.
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