Abstract
Elevation of nonfasting triglyceride (TG) levels above 1.8 g/L (2 mmol/L) is associated with increased risk of cardiovascular diseases. Exacerbated postprandial hypertriglyceridemia (PP–HTG) and metabolic context both modulate the overall efficacy of the reverse cholesterol transport (RCT) pathway, but the specific contribution of exaggerated PP–HTG on RCT efficacy remains indeterminate. Healthy male volunteers (n = 78) exhibiting no clinical features of metabolic disorders underwent a postprandial exploration following consumption of a typical Western meal providing 1200 kcal. Subjects were stratified according to maximal nonfasting TG levels reached after ingestion of the test meal into subjects with a desirable PP–TG response (GLow, TG < 1.8 g/L, n = 47) and subjects with an undesirable PP–TG response (GHigh, TG > 1.8 g/L, n = 31). The impact of the degree of PP–TG response on major steps of RCT pathway, including cholesterol efflux from human macrophages, cholesteryl ester transfer protein (CETP) activity, and hepatic high-density lipoprotein (HDL)-cholesteryl ester (CE) selective uptake, was evaluated. Cholesterol efflux from human macrophages was not significantly affected by the degree of the PP–TG response. Postprandial increase in CETP-mediated CE transfer from HDL to triglyceride-rich lipoprotein particles, and more specifically to chylomicrons, was enhanced in GHigh vs. GLow. The hepatic HDL-CE delivery was reduced in subjects from GHigh in comparison with those from GLow. Undesirable PP–TG response induces an overall reduction in RCT efficacy that contributes to the onset elevation of both fasting and nonfasting TG levels and to the development of cardiometabolic diseases.
Highlights
The reverse cholesterol transport (RCT) pathway, which involves the centripetal movement of free cholesterol from peripheral tissues to the liver, is recognized as the primary mechanism by which high-density lipoproteins (HDL) protect against atherosclerosis [1]
The present study aims to evaluate the specific impact of an elevated postprandial hypertriglyceridemia on RCT pathway independently of the dysmetabolic context
Cholesterol efflux assays were performed as previously described [24] by using [3H]-cholesterol-loaded human THP-1 macrophages and cellular models representative of a specific efflux pathway, either Scavenger Receptor-BI (SR-BI) (Fu5AH) or ATP-Binding Cassette A1 (ABCA1) (CHO-hABCA1 cells in which the expression of ABCA1 was induced by tetracycline). [3H]-cholesterol– labeled cells were incubated for 4 h at 37 ◦C in the presence of a 40-fold diluted plasma or fixed concentrations of isolated HDL subfractions (10 μgPL/mL for Fu5AH and 10 μgApoAI/mL for CHO-hABCA1)
Summary
The reverse cholesterol transport (RCT) pathway, which involves the centripetal movement of free cholesterol from peripheral tissues to the liver, is recognized as the primary mechanism by which high-density lipoproteins (HDL) protect against atherosclerosis [1]. Overproduction and accumulation of postprandial TRL together with delayed catabolism of their remnants as observed in patients with metabolic diseases, such as metabolic syndrome, type 2 diabetes, hypertriglyceridemia or mixed hyperlipidaemia, are responsible for an exaggerated postprandial lipemia [15] and underlie the relationship between nonfasting TG and cardiovascular diseases In such dyslipidemic patients, elevated levels of lipid poor/lipid free apoAI stimulate ABCA1-dependent cholesterol efflux from macrophages during postprandial lipemia, RCT efficaciousness is significantly reduced as a result of both a defective direct and a delayed indirect return of cholesterol to the liver [16], contributing to the development of atherosclerosis. We characterized key steps of RCT, including cholesterol efflux, CETP activity and selective liver uptake of HDL-CE, during the postprandial phase in healthy men displaying no clinical features of metabolic disorders and exhibited either a desirable or an undesirable postprandial TG response
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