Abstract

BMAL1, the nonredundant transcription factor in the core molecular clock, has been implicated in cardiometabolic diseases in mice and humans. BMAL1 controls the cyclic trafficking of Ly6c^hi monocytes to sites of acute inflammation. Myeloid deficiency of <i>Bmal1</i> also worsens chronic inflammation in diet-induced obesity. We studied whether myeloid <i>Bmal1</i> deletion promotes atherosclerosis by enhancing monocyte recruitment to atherosclerotic lesions. By generating <i>Bmal1</i>^FloxP/FloxP;LysM^Cre mice on the Apoe^-/- background, we showed that <i>Bmal1</i> deletion in myeloid cells increased the size of atherosclerotic lesions. <i>Bmal1</i> deficiency in monocytes and macrophages resulted in an increased total number of lesional macrophages in general and Ly6c^hi infiltrating monocyte-macrophages in particular, accompanied by skewed M2 to M1 macrophage phenotype. Ly6c^hi and/or Ly6c^lo monocyte subsets in blood, spleen, and bone marrow were not altered. Cell tracking and adoptive transfer of Ly6c^hi monocytes showed <i>Bmal1</i> deficiency induced more trafficking of Ly6c^hi monocytes to atherosclerotic lesions, preferential differentiation of Ly6c^hi monocytes into M1 macrophages, and increased macrophage content and lesion size in the carotid arteries. We demonstrated that <i>Bmal1</i> deficiency in macrophages promotes atherosclerosis by enhancing recruitment of Ly6c^hi monocytes to atherosclerotic lesions.-Huo, M., Huang, Y., Qu, D., Zhang, H., Wong, W. T., Chawla, A., Huang, Y., Tian, X. Y. Myeloid <i>Bmal1</i> deletion increases monocyte recruitment and worsens atherosclerosis.