Spillover of dietary fatty acids and use of serum nonesterified fatty acids for the synthesis of VLDL-triacylglycerol under two different feeding regimens.

The present study quantified dietary fatty acid flux in healthy men (n = 6) who were fed a liquid formula through a duodenal feeding tube (continuous feeding group) or who consumed the same formula in meals (meal feeding group). A triacylglycerol (TAG) stable isotope was added to the formula to determine the entry of dietary fatty acids into the serum and its clearance to the liver and resecretion into serum via VLDL. The contribution of dietary fatty acids to serum nonesterified fatty acids (NEFAs) was higher with meal feeding (24.4 +/- 2.6%) compared with continuous feeding (10.8 +/- 2.9%, P < 0.01) and, when multiplied by the NEFA concentration, resulted in similar absolute fatty acid spillover. Diet-derived NEFAs subsequently represented 10.6 +/- 1.2% and 4.7 +/- 1.3% of hepatic VLDL-TAG (meal feeding vs. continuous feeding, respectively, P = 0.004). Chylomicron remnant uptake by the liver contributed 9.3 +/- 1.9% of fatty acids to hepatic VLDL-TAG synthesis with meal feeding compared with continuous feeding (4.4 +/- 0.8%, P < 0.03). These data suggest that the extent of dietary fatty acid recycling via serum NEFAs and VLDL-TAG is determined by the rate of delivery of dietary fat to the intestine. The inefficient removal of dietary fat from the circulation may maintain VLDL-TAG production but may also result in prolonged postprandial lipemia.

[1]  E. Parks,et al.  Increased dietary substrate delivery alters hepatic fatty acid recycling in healthy men. , 2005, Diabetes.

[2]  P. Iozzo,et al.  Defective liver disposal of free fatty acids in patients with impaired glucose tolerance. , 2004, The Journal of clinical endocrinology and metabolism.

[3]  W. Harris,et al.  Systemic and forearm triglyceride metabolism: fate of lipoprotein lipase-generated glycerol and free fatty acids. , 2004, Diabetes.

[4]  Fredrik Karpe,et al.  Selective partitioning of dietary fatty acids into the VLDL TG pool in the early postprandial period Published, JLR Papers in Press, August 16, 2003. DOI 10.1194/jlr.M300167-JLR200 , 2003, Journal of Lipid Research.

[5]  B. Teusink,et al.  Contribution of fatty acids released from lipolysis of plasma triglycerides to total plasma fatty acid flux and tissue-specific fatty acid uptake. , 2003, Diabetes.

[6]  M. Gibney,et al.  The Impact of Postprandial Lipemia in Accelerating Atherothrombosis , 2000, Journal of cardiovascular risk.

[7]  R. Krauss,et al.  Effects of a low-fat, high-carbohydrate diet on VLDL-triglyceride assembly, production, and clearance. , 1999, The Journal of clinical investigation.

[8]  T Reilly,et al.  Metabolic responses to isoenergetic meals containing different proportions of carbohydrate and fat , 1997, British Journal of Nutrition.

[9]  T. Olivecrona,et al.  Chylomicron metabolism in rats: lipolysis, recirculation of triglyceride-derived fatty acids in plasma FFA, and fate of core lipids as analyzed by compartmental modelling. , 1996, Journal of lipid research.

[10]  R. Havel,et al.  Quantification of apolipoproteins B-100, B-48, and E in human triglyceride-rich lipoproteins. , 1995, Journal of lipid research.

[11]  M. Heimberg,et al.  The derivation of plasma-free fatty acids from dietary neutral fat in man. , 1974, The Journal of laboratory and clinical medicine.