Abstract 689: Loss of Smooth Muscle Cell Nogo-B Protects from Atherosclerosis Plaque Development

Background: Atherosclerosis, a major cause of cardiovascular diseases, is a lipid-driven inflammatory disease that occurs as fatty deposits, immune cells, calcium, and waste products accumulate on the walls of arteries over decades and often result in myocardial infarction or stroke. A member of the reticulon family of proteins, Nogo-B localizes in endothelial cells, vascular smooth muscle cells (VSMCs), and macrophages. Global and macrophage-specific Nogo-B deletion exacerbated atherogenesis by increasing lesion area and necrotic core size while decreasing cap thickness and collagen deposition. Our previous studies also suggest Nogo-B attenuates growth factor induced VSMC proliferation and neointimal formation after vascular injury. This study aims to elucidate the role of VSMC-specific Nogo-B in plaque development and stability in mice. Methods and Results: A murine atherosclerosis model was generated by specifically deleting Nogo-B in VSMCs of ApoE -/- mice with a Cre-recombinase system (Nogo-B iSMCKO ) and feeding a Western diet (1.25% cholesterol) for 14 weeks. VSMC-Nogo-B loss demonstrates a decreased necrotic core, minimized lesion size, and increased collagen content in aortic root lesions, all of which are indices of a more stable plaque phenotype. Nogo-B deletion in cultured VSMCs stimulated with β-CD cholesterol (20ug/mL) was performed to investigate phenotypic modulation and trans-differentiation in vitro . After cholesterol stimulation, expression of smooth muscle contractile genes was maintained in cells deficient in Nogo-B while decreasing in WT cells. Furthermore, VSMCs deficient in Nogo-B had decreased cholesterol uptake in cholesterol-loading experiments. Mechanistically, our results show Nogo-B modulates VSMC plasticity through transcription factor Krüppel-like factor 4. Conclusions: VSMC-specific Nogo-B deficiency attenuates atherogenesis and promotes stable plaque phenotypes. VSMC-specific Nogo-B deficiency may aid in the therapeutic intervention of atherosclerosis by improving plaque stability and patient prognosis.