Combined deficiency of ABCA1 and ABCG1 promotes foam cell accumulation and accelerates atherosclerosis in mice
Laurent Yvan-Charvet, Mollie Ranalletta, Nan Wang, Seongah Han, Naoki Terasaka, Rong Li, Carrie Welch, Alan R. Tall
Laurent Yvan-Charvet, Mollie Ranalletta, Nan Wang, Seongah Han, Naoki Terasaka, Rong Li, Carrie Welch, Alan R. Tall
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Research Article Cardiology

Combined deficiency of ABCA1 and ABCG1 promotes foam cell accumulation and accelerates atherosclerosis in mice

Abstract

HDLs protect against the development of atherosclerosis, but the underlying mechanisms are poorly understood. HDL and its apolipoproteins can promote cholesterol efflux from macrophage foam cells via the ATP-binding cassette transporters ABCA1 and ABCG1. Experiments addressing the individual roles of ABCA1 and ABCG1 in the development of atherosclerosis have produced mixed results, perhaps because of compensatory upregulation in the individual KO models. To clarify the role of transporter-mediated sterol efflux in this disease process, we transplanted BM from Abca1–/–Abcg1–/– mice into LDL receptor–deficient mice and administered a high-cholesterol diet. Compared with control and single-KO BM recipients, Abca1–/–Abcg1–/– BM recipients showed accelerated atherosclerosis and extensive infiltration of the myocardium and spleen with macrophage foam cells. In experiments with isolated macrophages, combined ABCA1 and ABCG1 deficiency resulted in impaired cholesterol efflux to HDL or apoA-1, profoundly decreased apoE secretion, and increased secretion of inflammatory cytokines and chemokines. In addition, these cells showed increased apoptosis when challenged with free cholesterol or oxidized LDL loading. These results suggest that the combined effects of ABCA1 and ABCG1 in mediating macrophage sterol efflux are central to the antiatherogenic properties of HDL.

Authors

Laurent Yvan-Charvet, Mollie Ranalletta, Nan Wang, Seongah Han, Naoki Terasaka, Rong Li, Carrie Welch, Alan R. Tall

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Figure 2

Atherosclerotic lesion development in the proximal aorta.

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Atherosclerotic lesion development in the proximal aorta. (A) Quantifica...
(A) Quantification of proximal aortic root lesion area by morphometric analysis of H&E-stained sections in Ldlr+/– mice transplanted with WT (n = 12), Abcg1–/– (n = 8), Abca1–/– (n = 16), or Abca1–/–Abcg1–/– (n = 9) BM after 12 weeks of high-cholesterol diet. Values for individual mice are shown as open circles, representing the average of 5 sections per mouse. Horizontal bars indicate the group medians: control, 3,994 μm2/section; Abcg1–/–, 3,724 μm2/section; Abca1–/–, 40,070 μm2/section; Abca1–/–Abcg1–/–, 186,182 μm2/section. Mean lesion areas (mean ± SEM) were as follows: control, 9,090 ± 3,872 μm2/section; Abcg1–/–, 15,412 ± 1,640 μm2/section; Abca1–/–, 72,675 ± 28,879 μm2/section; Abca1–/–Abcg1–/–, 174,958 ± 36,269 μm2/section. ANOVA was performed with square root–transformed data. (B) Representative H&E-stained proximal aortas from mice receiving BM of all the 4 genotypes after 12 weeks of high-cholesterol diet. Original magnification, ×100.