Abstract
Cholesterol efflux occurs by different pathways, including transport mediated by specific proteins. We determined the effect of enriching cells with free cholesterol (FC) on the release of FC to human serum. Loading Fu5AH cells with FC had no effect on fractional efflux, whereas enriching mouse peritoneal macrophages (MPMs) resulted in a doubling of fractional efflux. Efflux from cholesterol-normal MPM and Fu5AH cells to 15 human sera correlated well with HDL parameters. However, these relationships were reduced or lost with cholesterol-loaded MPMs. Using macrophages from scavenger receptor class B type I (SR-BI)-, ABCA1-, and ABCG1-knockout mice, together with inhibitors of SR-BI- and ABCA1-mediated efflux, we were able to quantitate efflux upon loading macrophages with excess cholesterol and to establish the contributions of the various efflux pathways in cholesterol-normal and -enriched cells. The removal of ABCA1 had essentially no effect on the total efflux when cell cholesterol levels were normal. However, in cholesterol-enriched cells, the removal of ABCA1 reduced efflux by 50%. Approximately 20% of the efflux stimulated by FC-loading MPM is attributable to ABCG1. The SR-BI contribution to efflux was small. Another pathway that is present in all cells is aqueous diffusion. Our studies demonstrate that this mechanism is one of the major contributors to efflux, particularly in cholesterol-normal cells.
Highlights
Cholesterol efflux occurs by different pathways, including transport mediated by specific proteins
Even though to different extents, aqueous diffusion, ABCA1 and ABCG1 plays a role in the stimulation of efflux to human serum obtained with cholesterol-enriched mouse peritoneal macrophage (MPM), whereas scavenger receptor class B type I (SR-BI) has only a minor role in this process
Loading of MPMs was accomplished by incubation with 50 mg/ml acetylated low density lipoprotein (AcLDL) added to the cells during the 24 h labeling period, after which efflux to sera was for 8 h
Summary
Cholesterol efflux occurs by different pathways, including transport mediated by specific proteins. The same 15 sera used in the Fu5AH experiments were used as acceptors to measure their ability in promoting efflux from either normal or cholesterol-enriched MPMs. Loading of MPMs was accomplished by incubation with 50 mg/ml AcLDL added to the cells during the 24 h labeling period, after which efflux to sera was for 8 h.
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