This article is available online at http://www.jlr.org among the most common is reduced triglyceride-rich lipoprotein (TRL) clearance by peripheral tissue. White adipose tissue (WAT) is a major regulator of TRL clearance, particularly in the postprandial state ( 2-6 ). Following a meal, dietary fat enters the circulation in the form of chylomicrons, TRL with apoB48. Effi cient clearance of chylomicrons by WAT requires three sequential steps: i ) the hydrolysis of chylomicrons by endothelial lipoprotein lipase (LPL); ii ) the uptake of LPL-generated nonesterifi ed fatty acid (NEFA) by underlying adipocytes; and iii ) the utilization or storage of NEFA ( 3, 5 ). Dietary TRL remnants and NEFA that are not cleared by peripheral tissue are then taken up by the liver for utilization and resecretion as VLDL (TRL with apoB100).Healthy WAT is able to respond promptly to postprandial signals, such as insulin increasing the hydrolysis of dietary TRL and the uptake and storage of generated NEFA, thus reestablishing the homeostasis in plasma lipids. The storage versus the release of TRL-generated NEFA in human subcutaneous WAT was reported to be almost absent in the fasting state, to increase to 100% 1 h after the ingestion of a meal, and to decrease to 10-30% 6 h after the meal ( 5 ). Accordingly, delayed plasma clearance of postprandial TRL by WAT is believed to increase the infl ux of dietary TRL remnants and NEFA into nonadipose peripheral tissues, including muscle, pancreas, and liver, inducing lipotoxicity and insulin resistance ( 6-8 ). In the liver, this also leads to increased synthesis and secretion of VLDL, which further reduces chylomicron clearance due to competitive binding to LPL ( 9-14 ). Altogether, this increases the plasma concentrations of apoB-lipoproteins, which is measured as plasma apoB and represents mostly LDL particles (>90%) ( 14-16 ). Dysfunctional WAT is thus Postprandial hypertriglyceridemia is an independent risk factor for cardiometabolic disease ( 1 ). Many factors have been implicated in the etiology of hyperlipidemia;
Background To optimize the prevention of type 2 diabetes (T2D), high-risk obese subjects with the best metabolic recovery after a hypocaloric diet should be targeted. Apolipoprotein B lipoproteins (apoB lipoproteins) induce white adipose tissue (WAT) dysfunction, which in turn promotes postprandial hypertriglyceridemia, insulin resistance (IR), and hyperinsulinemia. Objective The aim of this study was to explore whether high plasma apoB, or number of plasma apoB lipoproteins, identifies subjects who best ameliorate WAT dysfunction and related risk factors after a hypocaloric diet. Design Fifty-nine men and postmenopausal women [mean ± SD age: 58 ± 6 y; body mass index (kg/m2): 32.6 ± 4.6] completed a prospective study with a 6-mo hypocaloric diet (−500 kcal/d). Glucose-induced insulin secretion (GIIS) and insulin sensitivity (IS) were measured by 1-h intravenous glucose-tolerance test (IVGTT) followed by a 3-h hyperinsulinemic-euglycemic clamp, respectively. Ex vivo gynoid WAT function (i.e., hydrolysis and storage of 3H-triolein–labeled triglyceride-rich lipoproteins) and 6-h postprandial plasma clearance of a 13C-triolein–labeled high-fat meal were measured in a subsample (n = 25). Results Postintervention first-phase GIISIVGTT and total C-peptide secretion decreased in both sexes, whereas second-phase and total GIISIVGTT and clamp IS were ameliorated in men (P < 0.05). Baseline plasma apoB was associated with a postintervention increase in WAT function (r = 0.61) and IS (glucose infusion rate divided by steady state insulin (M/Iclamp) r = 0.30) and a decrease in first-phase, second-phase, and total GIISIVGTT (r = −0.30 to −0.35) without sex differences. The association with postintervention amelioration in WAT function and GIISIVGTT was independent of plasma cholesterol (total, LDL, and HDL), sex, and changes in body composition. Subjects with high baseline plasma apoB (1.2 ± 0.2 g/L) showed a significant increase in WAT function (+105%; P = 0.012) and a decrease in total GIISIVGTT (−34%; P ≤ 0.001), whereas sex-matched subjects with low plasma apoB (0.7 ± 0.1 g/L) did not, despite equivalent changes in body composition and energy intake and expenditure. Conclusions High plasma apoB identifies obese subjects who best ameliorate WAT dysfunction and glucose-induced hyperinsulinemia, independent of changes in adiposity after consumption of a hypocaloric diet. We propose that subjects with high plasma apoB represent an optimal target group for the primary prevention of T2D by hypocaloric diets. This trial was registered at BioMed Central as ISRCTN14476404.
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