AIMS/HYPOTHESIS: Phospholipid transfer protein plays a key role in lipoprotein metabolism by catalysing the transfer of phospholipids from triglyceride-rich lipoproteins to high-density lipoproteins and, also, within the high-density lipoprotein family, from particle to particle. This transfer results in a change of HDL particle size and the generation of pre-beta-high-density lipoproteins which function as initial lipid acceptors in the process of reverse cholesterol transport. Because adipose tissue is a source of phospholipid transfer protein we investigated the influence of obesity and insulin sensitivity on phospholipid transfer protein activity. METHODS: Using an exogenous substrate assay phospholipid transfer protein activity was measured in plasma specimens of 190 normolipidaemic, non-diabetic subjects with BMI ranging from 19 to 43 kg/m2. Insulin sensitivity was measured by the short insulin tolerance test. RESULTS: Phospholipid transfer protein activity was associated with BMI (r = 0.46, p < 0.01), body fat mass (r = 0.39, p < 0.01), subcutaneous fat area (r = 0.32, p < 0.01) and plasma leptin concentration (r = 0.24, p < 0.01) but not with insulin sensitivity expressed as the k(s) of the insulin tolerance test (kITT value) (r = -0.14, p = 0.40). Accordingly, phospholipid transfer protein activity was higher in obese than in nonobese subjects. As determined by linear regression analysis, BMI was the sole predictor of phospholipid transfer protein activity in plasma explaining 22.2% of the activity (p< 0.01). CONCLUSIONS/INTERPRETATIONS: This data suggests that increased phospholipid transfer protein activity in obese subjects is a consequence of obesity itself without the contribution of insulin resistance and can be explained by increased synthesis of phospholipid transfer protein from the enlarged mass of adipose tissue.
AIMS/HYPOTHESIS: Phospholipid transfer protein plays a key role in lipoprotein metabolism by catalysing the transfer of phospholipids from triglyceride-rich lipoproteins to high-density lipoproteins and, also, within the high-density lipoprotein family, from particle to particle. This transfer results in a change of HDL particle size and the generation of pre-beta-high-density lipoproteins which function as initial lipid acceptors in the process of reverse cholesterol transport. Because adipose tissue is a source of phospholipid transfer protein we investigated the influence of obesity and insulin sensitivity on phospholipid transfer protein activity. METHODS: Using an exogenous substrate assay phospholipid transfer protein activity was measured in plasma specimens of 190 normolipidaemic, non-diabetic subjects with BMI ranging from 19 to 43 kg/m2. Insulin sensitivity was measured by the short insulin tolerance test. RESULTS: Phospholipid transfer protein activity was associated with BMI (r = 0.46, p < 0.01), body fat mass (r = 0.39, p < 0.01), subcutaneous fat area (r = 0.32, p < 0.01) and plasma leptin concentration (r = 0.24, p < 0.01) but not with insulin sensitivity expressed as the k(s) of the insulin tolerance test (kITT value) (r = -0.14, p = 0.40). Accordingly, phospholipid transfer protein activity was higher in obese than in nonobese subjects. As determined by linear regression analysis, BMI was the sole predictor of phospholipid transfer protein activity in plasma explaining 22.2% of the activity (p< 0.01). CONCLUSIONS/INTERPRETATIONS: This data suggests that increased phospholipid transfer protein activity in obese subjects is a consequence of obesity itself without the contribution of insulin resistance and can be explained by increased synthesis of phospholipid transfer protein from the enlarged mass of adipose tissue.
Authors: R de Vries; G M Dallinga-Thie; A J Smit; B H R Wolffenbuttel; A van Tol; R P F Dullaart Journal: Diabetologia Date: 2005-12-23 Impact factor: 10.122
Authors: Markus W Laimer; Julia Engl; Alexander Tschoner; Susanne Kaser; Andreas Ritsch; Tobias Tatarczyk; Markus Rauchenzauner; Helmut Weiss; Franz Aigner; Josef R Patsch; Christoph F Ebenbichler Journal: Lipids Date: 2009-09-30 Impact factor: 1.880