Mif-deficiency favors an atheroprotective autoantibody phenotype in atherosclerosis

The inflammatory cytokine macrophage migration-inhibitory factor (MIF) promotes atherosclerosis via lesional monocyte and T-cell recruitment. B cells have emerged as important components in atherogenesis, but the interaction between MIF and B cells in atherogenesis is unknown. Here, we investigated the atherosclerotic phenotype of Mif-gene deletion in Apoe²/² mice. Apoe²/²Mif²/² mice fed a Western diet exhibited strongly reduced atherosclerotic lesions in brachiocephalic artery (BC) and abdominal aorta compared with controls. This phenotype was accompanied by reduced circulating B cells. Flow cytometry revealed a B-cell developmental defect with increased premature and immature B-cell counts in bone marrow (BM) of Apoe²/²Mif²/² mice and diminished B-cell numbers in spleen. This finding was linked with a decreased expression of Baff-R and differentiation-driving transcription factors at the immature B-cell stage, whereas peritoneal B cells exhibited unchanged CD80 and CD86 expression but vastly decreased CD9 and elevated CD23 levels, indicating that the developmental block favors the generation of immature, egressing, and reactive B cells. Mif deficiency did not affect absolute B-cell numbers in the vessel wall but favored a relative increase of B cells in the atheroprone BC region and the appearance of periadventitial B-cell-rich clusters. Of note, Mif²/2 mice exhibited a significant increase in oxidized low-density lipoprotein (oxLDL)-specific antibodies after the injection of oxLDL, indicating that Mif deficiency is associated with higher sensitivity of B cells against natural-occurring antigens such as oxLDL. Importantly, Apoe²/² mice adoptively transplanted with Apoe²/²Mif²/² BM showed reduced peripheral B cells compared with Apoe²/² BM transplantation but no atheroprotection in the BC; also, whereas there was a selective increase in atheroprotective IgM-anti-oxLDL-antibodies in global Mif deficiency, BM-specific Mif deficiency also led to elevated proatherogenic anti-oxLDL-IgG. Together, these findings reveal a novel link between MIF and B cells in atherogenesis. Protection from atherosclerosis by Mif deficiency is associated with enhanced B-cell hypersensitivity, which in global but not BM-restricted Mif deficiency favors an atheroprotective autoantibody profile in atherosclerotic mice. Targeting MIF may induce protective B-cell responses in atherosclerosis.