, we showed that SR-BI-mediated cholesterol efflux was highly correlated (r 2 ؍ 0.985) with HDL phosphatidylcholine content. The effects of varying HDL phospholipid composition on SR-BI-mediated free cholesterol flux were not correlated with changes in either the K d or B max values for high affinity binding to SR-BI. We conclude that SR-BI-mediated free cholesterol flux is highly sensitive to HDL phospholipid composition. Thus, factors that regulate cellular SR-BI expression and the local modification of HDL phospholipid composition will have a large impact on reverse cholesterol transport.The deposition of cholesterol in peripheral cells is opposed by the process of reverse cholesterol transport (RCT) 1 where high density lipoproteins (HDL) remove free cholesterol (FC) from cells and deliver it back to the liver for excretion (1-3). The flux of FC between cells and HDL is bi-directional. Depending on the direction of the FC concentration gradient between cells and lipoproteins, either net efflux or net influx of cholesterol can occur (4, 5). The creation of a cholesterol gradient depends upon many properties of the acceptors and the cell plasma membrane. Such factors include the cholesterol and phospholipid content of the acceptors and plasma membrane (4, 5), the existence of cholesterol domains within the plasma membrane (6 -10), and the size, number, and composition of acceptor particles (11-13).Recent studies have shown that, when cells express scavenger receptor BI (SR-BI), the bi-directional flux of FC between cells and HDL is accelerated (8,14,15). The mechanism by which SR-BI mediates FC flux is uncertain. However, recent studies from our laboratory demonstrated that binding of the acceptor particles to SR-BI is not a requirement for SR-BImediated cholesterol efflux (7,8). Rather SR-BI induces a reorganization of the plasma membrane cholesterol, and this reorganization is linked to enhanced FC flux (7,8,16). Regardless of the mechanism, evidence is accumulating to support the importance of SR-BI-mediated FC flux in RCT. Recent studies of Ji and colleagues (17) showed that either attenuation or overexpression of hepatic SR-BI in mice led to significantly decreased or increased delivery of HDL FC into bile. In addition, the expression of SR-BI in peripheral cells and in foam cells of the arterial wall suggests a role for SR-BI in the removal of FC from the periphery (15, 18, 19).SR-BI-mediated FC flux requires phospholipid in the acceptor (15), and studies have shown that cholesterol efflux from cells is highly correlated with the concentration of HDL phospholipid in serum (20,21). Also, the stimulation of cholesterol efflux upon phospholipid supplementation of serum is closely linked to the levels of SR-BI among cell types (14). These observations are consistent with epidemiological data demonstrating that humans with low HDL phospholipid levels have a high incidence of coronary artery disease (22). These findings suggest that changes in HDL phospholipid content may alter SR-BI-mediated FC flux. The cu...
