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(Arteriosclerosis, Thrombosis, and Vascular Biology. 1999;19:1257-1262.)
© 1999 American Heart Association, Inc.

Atherosclerosis and Lipoproteins

Increased Cholesterol Efflux Potential of Sera From ApoA-I_Milano Carriers and Transgenic Mice

Guido Franceschini; Laura Calabresi; Giulia Chiesa; Cinzia Parolini; Cesare R. Sirtori; Monica Canavesi; Franco Bernini

From the Center E. Grossi Paoletti and Institute of Pharmacological Sciences (G.F., L.C., G.C., C.P., C.R.S., M.C.), University of Milano, and the Institute of Pharmacology and Pharmacognosy (F.B.), University of Parma, Italy.

Correspondence to Guido Franceschini Center E. Grossi Paoletti, Institute of Pharmacological Sciences, Via Balzaretti 9, 20133 Milano, Italy. E-mail Guido.Franceschini{at}unimi.it

Abstract—The ability of HDL to remove cholesterol from peripheral cells and drive it to the liver for excretion is believed to explain most of the strong inverse correlation between plasma HDL cholesterol levels and coronary heart disease. Carriers of the ApoA-I_Milano (A-I_M) mutant have a severe hypoalphalipoproteinemia but are not at increased risk for premature of coronary heart disease. To explain this apparent paradox, we compared the capacity of serum from A-I_M and control subjects to extract cholesterol from Fu5AH cells. Because the A-I_M carriers are all heterozygotes for the mutation, we also compared the cholesterol efflux capacity of serum from transgenic mice expressing A-I_M or wild-type ApoA-I (A-I_WT), in the absence of murine ApoA-I. In the whole series of human or mouse sera, cholesterol efflux was significantly correlated with several HDL-related parameters; after adjustment for concomitant variables, the only parameter that remained significantly correlated with cholesterol efflux was the serum ApoA-I concentration (r²=0.85 in humans and 0.84 in mice). The same was true when samples from control subjects, A-I_M carriers, A-I_WT or A-I_M mice were analyzed separately. Cholesterol efflux to sera from the A-I_M carriers was only reduced slightly compared with control sera (25.0±4.2% versus 30.4±3.3%), although there was a large reduction (-45%) in the serum ApoA-I concentration in the former. Cholesterol efflux was also lower to sera from A-I_M than A-I_WT mice (15.6±3.8% versus 30.1±7.1%), but less than expected from the 70% reduction in serum ApoA-I concentration. A relative efflux potential of serum was calculated in each group as the slope of the regression line fitting cholesterol efflux to ApoA-I concentrations. Therefore, the relative efflux potential reflects the relative efficiency of ApoA-I in determining cell cholesterol efflux. The relative efflux potential of mouse and human sera was in the following order: A-I_M mice>A-I_M carriers>A-I_WT mice=control subjects, suggesting a gene–dosage effect of the A-I_M mutation on the efficiency of serum to extract cholesterol from cells. The high efficiency of A-I_M-containing HDL for cell cholesterol uptake would result in an improved reverse cholesterol transport in the A-I_M carriers, possibly explaining the low susceptibility to atherosclerosis development.

Key Words: reverse cholesterol transport • ApoA-I • cholesterol efflux • HDL • transgenic mice

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