Abstract
Atherosclerotic cardiovascular disease is a major contributor to the global disease burden. Atherosclerosis initiation depends on cholesterol accumulation in subendothelial macrophages (Mφs). To clarify the role of Bmal1 in Mφ function and atherosclerosis, we used several global and myeloid-specific Bmal1-deficient mouse models. Myeloid-specific Bmal1-deficient mice had higher Mφ cholesterol and displayed greater atherosclerosis compared with controls. Bmal1-deficient Mφs exhibited: (a) elevated expression of Cd36 and uptake of oxLDL; (b) diminished expression of Abca1 and Abcg1, and decreased cholesterol efflux and reverse cholesterol transport; and (c) reduced Npc1 and Npc2 expression and diminished cholesterol egress from lysosomes. Molecular studies revealed that Bmal1 directly regulates basal and cyclic expression of Npc1 and Npc2 by binding the E-box motif (CANNTG) sequence recognized by Bmal1 in their promoters and indirectly regulates the basal and temporal regulation of Cd36 and Abca1/Abcg1 involving Rev-erbα and Znf202 repressors, respectively. In conclusion, Mφ Bmal1 is a key regulator of the uptake of modified lipoproteins, cholesterol efflux, lysosomal cholesterol egress, and atherosclerosis and, therefore, may be a master regulator of cholesterol metabolism in Mφs. Restoration of Mφ Bmal1 expression or blocking of factors that decrease its activity may be effective in preventing atherosclerosis.
Authors
Xiaoyue Pan, John O’Hare, Cyrus Mowdawalla, Samantha Mota, Nan Wang, M. Mahmood Hussain
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