Impaired plasma nonesterified fatty acid tolerance is an early defect in the natural history of type 2 diabetes

Context: Abnormal plasma nonesterified fatty acid ( NEFA) metabolism may play a role in the development of type 2 diabetes. Objectives: Our objectives were to demonstrate whether there is a defect in insulin-mediated suppression of plasma NEFA appearance (Ra-NEFA) and oxidation (Ox(NEFA)) during enhanced intravascular triacylglycerol lipolysis early in the natural history of type 2 diabetes, and if so, to determine whether other mechanisms than reduced insulin-mediated suppression of intracellular lipolysis are involved. Design: These are cross-sectional studies. Setting: The studies were performed at an academic clinical research center. Participants: Nine healthy subjects with both parents with type 2 diabetes (FH+) and nine healthy subjects with no first-degree relatives with type 2 diabetes (FH-) with similar anthropometric features were included in the studies. Interventions: Pancreatic clamps and iv infusion of stable isotopic tracers ([1,1,2,3,3-H-2(5)]-glycerol and [U-C-13]-palmitate or [1,2-C-13]-acetate) were performed while intravascular triacylglycerol lipolysis was simultaneously clamped by iv infusion of heparin plus Intralipid at low (fasting) and high insulin levels. Oral nicotinic acid (NA) was used to inhibit intracellular lipolysis. Main Outcome Measures: RaNEFA and OxNEFA were determined. Results: During heparin plus Intralipid infusion at high plasma insulin levels, and despite similar intravascular lipolytic rates, FH+ had higher Ra-NEFA and Ox(NEFA) than FH+ (Ra-NEFA: 17.4 +/- 6.3 vs. 9.2 +/- 4.2; Ox(NEFA): 4.5 +/- 1.8 vs. 2.3 +/- 1.5 mu mol/kg lean body mass/min), independent of NA intake, gender, age, and body composition. In the presence of NA, insulin-mediated suppression of RaNEFA was still observed in FH-, but not in FH+. Conclusions: Increased Ra-NEFA and Ox(NEFA) during intravascular lipolysis at high insulin levels occur early in the natural history of type 2 diabetes.