Abstract
Triglyceride synthesis in mammalian tissues requires glycerol 3-phosphate as the source of triglyceride glycerol. In this study the relative contribution of glyceroneogenesis and glycolysis to triglyceride glycerol synthesis was quantified in vivo in adipose tissue, skeletal muscle, and liver of the rat in response to a chow diet (controls), 48-h fast, and lipogenic (high sucrose) diet. The rate of glyceroneogenesis was quantified using the tritium ([(3)H(2)]O) labeling of body water, and the contribution of glucose, via glycolysis, was determined using a [U-(14)C]glucose tracer. In epididymal and mesenteric adipose tissue of control rats, glyceroneogenesis accounted for approximately 90% of triglyceride glycerol synthesis. Fasting for 48 h did not alter glyceroneogenesis in adipose tissue, whereas the contribution of glucose was negligible. In response to sucrose feeding, the synthesis of triglyceride glycerol via both glyceroneogenesis and glycolysis nearly doubled (versus controls); however, glyceroneogenesis remained quantitatively higher as compared with the contribution of glucose. Enhancement of triglyceride-fatty acid cycling by epinephrine infusion resulted in a higher rate of glyceroneogenesis in adipose tissue, as compared with controls, whereas the contribution of glucose via glycolysis was not measurable. Glyceroneogenesis provided the majority of triglyceride glycerol in the gastrocnemius and soleus. In the liver the fractional contribution of glyceroneogenesis remained constant (approximately 60%) under all conditions and was higher than that of glucose. Thus, glyceroneogenesis, in contrast to glucose, via glycolysis, is quantitatively the predominant source of triglyceride glycerol in adipose tissue, skeletal muscle, and liver of the rat during fasting and high sucrose feeding.
Highlights
Acid (TG-FA)3 cycle, in which fatty acids released from adipose tissue following lipolysis are re-esterified back to triglyceride [1, 2]
The mean plasma glucose concentration (9.8 mM) of the rats supplemented with sucrose was not significantly different when compared with controls
In the sucrose-supplemented group, intravenous glucose infusion resulted in complete suppression of endogenous glucose production
Summary
Animals—Male Sprague-Dawley rats weighing ϳ250 –275 g with indwelling carotid artery and jugular vein catheters were obtained from Zivic-Miller Laboratories (Zelienople, PA). Glycerol, and lactate, isolated from plasma samples (see above), was used to measure the total 3H and 14C radioactivity of each metabolite. The 3H and 14C radioactivity present in fatty acids and glycerol isolated (from triglycerides) in plasma and tissues was measured. The rate of glyceroneogenesis in the adipose tissue and skeletal muscle was calculated as follows: glyceroneogenesis (nmol/g/h) ϭ (3H in triglyceride glycerol (dpm/g/h) ϫ 2/5)/(pyruvate SA (dpm/mol) ϫ 2/3). The “total” (direct plus indirect via lactate) rate of the glycolytic contribution to triglyceride glycerol in adipose tissue and skeletal muscle was calculated as follows: total (direct plus indirect) incorporation of glucose into triglyceride glycerol (nmol/ g/h) ϭ 2 ϫ (14C radioactivity in triglyceride glycerol (dpm/g/ h))/(14C SA of glucose (dpm/mol)). Two-tailed Student’s t test (assuming unequal variance) was used to assess differences between two dietary groups for each tissue and within the same dietary group between two adipose tissue depots (or two types of skeletal muscle)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
