Abstract
The clearance of free cholesterol from plasma lipoproteins by tissues is of major quantitative importance, but it is not known whether this is passive or receptor-mediated. Based on our finding that scavenger receptor BI (SR-BI) promotes free cholesterol (FC) exchange between high density lipoprotein (HDL) and cells, we tested whether SR-BI would effect FC movement in vivo using [(14)C]FC- and [(3)H]cholesteryl ester (CE)-labeled HDL in mice with increased (SR-BI transgenic (Tg)) or decreased (SR-BI attenuated (att)) hepatic SR-BI expression. The initial clearance of HDL FC was increased in SR-BI Tg mice by 72% and decreased in SR-BI att mice by 53%, but was unchanged in apoA-I knockout mice compared with wild-type mice. Transfer of FC to non-HDL and esterification of FC were minor and could not explain differences. The hepatic uptake of FC was increased in SR-BI Tg mice by 34% and decreased in SR-BI att mice by 22%. CE clearance and uptake gave similar results, but with much slower rates. The uptake of HDL FC and CE by SR-BI Tg primary hepatocytes was increased by 2.2- and 2.6-fold (1-h incubation), respectively, compared with control hepatocytes. In SR-BI Tg mice, the initial biliary secretion of [(14)C]FC was markedly increased, whereas increased [(3)H]FC appeared after a slight delay. Thus, in the mouse, a major portion of the clearance of HDL FC from plasma is mediated by SR-BI.
Highlights
The clearance of free cholesterol from plasma lipoproteins by tissues is of major quantitative importance, but it is not known whether this is passive or receptormediated
Effect of scavenger receptor BI (SR-BI) on Clearance of high density lipoprotein (HDL) free cholesterol (FC) in Plasma—To explore the role of SR-BI in the metabolism of HDL FC, the clearance of HDL cholesterol was studied in mice with different levels of hepatic SR-BI expression. [14C]FC- and [3H]cholesteryl ester (CE)-labeled HDL was injected intravenously, and blood samples were obtained at different time points
SR-BI overexpression enhances the secretion of HDL cholesterol radioactivity into bile, including both the initial secretion of HDL FC and the slower secretion of FC and CE derived from HDL CE
Summary
The clearance of free cholesterol from plasma lipoproteins by tissues is of major quantitative importance, but it is not known whether this is passive or receptormediated. Based on our finding that scavenger receptor BI (SR-BI) promotes free cholesterol (FC) exchange between high density lipoprotein (HDL) and cells, we tested whether SR-BI would effect FC movement in vivo using [14C]FC- and [3H]cholesteryl ester (CE)-labeled HDL in mice with increased (SR-BI transgenic (Tg)) or decreased (SR-BI attenuated (att)) hepatic SR-BI expression. In mice with hepatic overexpression of SR-BI, the biliary concentration of cholesterol is increased [18, 25] These results led us to hypothesize that SR-BI plays a physiological role in vivo in promoting the hepatic uptake of HDL FC and facilitating the secretion of cholesterol into bile. We tested this hypothesis in mice with increased or attenuated expression of SR-BI
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