Distinct Cellular Loci for the ABCA1-Dependent and ABCA1-Independent Lipid Efflux Mediated by Endogenous Apolipoprotein E Expression

doi:10.1161/01.ATV.0000193627.12516.1d

Published Online
on October 27, 2005

Arteriosclerosis, Thrombosis, and Vascular Biology. 2005
Published online before print October 27, 2005, doi: 10.1161/01.ATV.0000193627.12516.1d

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Submitted on July 25, 2005
Accepted on October 17, 2005

Distinct Cellular Loci for the ABCA1-Dependent and ABCA1-Independent Lipid Efflux Mediated by Endogenous Apolipoprotein E Expression

Zhi H. Huang ; Michael L. Fitzgerald ; and Theodore Mazzone ^*

From the Departments of Medicine (Z.H.H., T.M.) and Pharmacology (T.M.), University of Illinois at Chicago; and the Department of Medicine (M.L.F.), Massachusetts General Hospital, Harvard Medical School, Boston, Mass.

^* To whom correspondence should be addressed. E-mail: tmazzone{at}uic.edu.

Objective--Macrophage expression of both apolipoprotein E (apoE)and ABCA1 have been shown to modulate lipid efflux from thesecells and to play an important atheroprotective role in vivo.We evaluated the relationship between apoE and ABCA1 for regulatingcellular sterol efflux.

Methods and Results--ApoE-mediated,but ABCA1-independent, lipid efflux was demonstrated in 3 modelsystems. First, adenoviral-mediated expression of apoE in dermalfibroblasts isolated from ABCA1^-/- mice significantly increasedboth sterol and phospholipid efflux. Second, expression of humanapoE in a macrophage cell line increased sterol efflux, andthis increment in efflux was not reduced by suppressing ABCA1expression. Third, reduction of apoE expression using an apoEsmall interfering RNA significantly reduced sterol efflux fromABCA1^-/- mouse peritoneal macrophages. ApoE-mediated, but ABCA1-independent,lipid efflux could be differentiated from lipid efflux thatwas dependent on the extracellular accumulation of secretedapoE, because exogenous cell-derived apoE stimulated effluxonly from cells expressing ABCA1. Sterol efflux was usuallyhighest in cells expressing both ABCA1 and apoE, likely representinga summation of the ABCA1-dependent and -independent pathwaysfor apoE-mediated sterol efflux.

Conclusions--ABCA1 expressionis required for apoE-mediated efflux when endogenously synthesizedapoE accumulates extracellularly. Our results, however, establishthe existence of an ABCA1-independent pathway for lipid effluxthat requires the intracellular synthesis and/or transport ofapoE.

Key words: apoE • ABCA1 • macrophage • lipid efflux • atherosclerosis

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