Abstract P3189: Vcam-1-mediated Mitochondrial Biogenesis In Macrophages Exacerbates Inflammation And Atherosclerosis

Abstract

Atherosclerotic cardiovascular disease is a leading cause of adult mortality worldwide. Macrophages play a key role in atherogenesis by sustaining the local inflammatory response, facilitating accumulation of immune cells in atheromas that contribute to plaque development. Mitochondrial metabolism plays a key role in governing inflammatory gene expression in macrophages. Yet, the role of mitochondrial biogenesis and mitochondrial DNA synthesis in regulating macrophage inflammation is not known. Vascular cell adhesion protein 1 (VCAM-1) expressed by endothelial cells mediates monocyte adhesion and extravasation in developing atherosclerotic plaques. We observed increased VCAM-1 expression in human and murine plaque macrophages. However, the function of this cell adhesion molecule expressed by macrophages is not known. Here, we evaluated if and how myeloid-VCAM-1 drive mitochondrial biogenesis, inflammation, and atherosclerosis pathology. Increased VCAM-1 expression in plaque macrophages correlated with oxidative DNA damage and mitochondrial volume. To understand the role of myeloid-Vcam1 in atherogenesis, we generated Apoe -/- LyzM cre/+ VCAM-1 fl/fl mice. Consistently, Apoe -/- mice lacking Vcam1 in macrophages exhibited reduced atherosclerosis severity and inflammation. Vcam1-deficient macrophages exhibited decreased inflammation, oxidative phosphorylation, mitochondrial biogenesis, and mitochondrial DNA synthesis genes, including Cmpk2. Cmpk2 deletion in macrophages after oxidized LDL treatment reduced inflammatory mediators that aggravate atherosclerosis. RNA sequencing analysis of Vcam-1 -deficient plaque macrophages and analysis of macrophages lacking Cmpk2 identified Fcor and Lyz1 as the target genes of Vcam1 and Cmpk2 . Interestingly, atherosclerotic plaque macrophages deficient of Sting , which mediates inflammatory signaling in response to oxidized mitochondrial DNA, had increased levels of Fcor and Lyz1 . Our data suggest that VCAM-1 in macrophages signals via CMPK2 and POLG to promote mitochondrial biogenesis, oxidation, and fragmentation, mediating atherogenesis.