Smooth Muscle Cell Cytoglobin is a Negative Regulator of Atherosclerotic Fibrous Cap Development
Smooth Muscle Cell Cytoglobin is a Negative Regulator of Atherosclerotic Fibrous Cap Development
Gilliard, K.; Pham, L. G. C.; Jourd'heuil, F. L.; Traylor, J. G.; Orr, A. W.; Jourd'heuil, D.
AbstractRupture of the fibrous cap is the primary cause of clinical complications from atherosclerosis. Smooth muscle cells (SMCs) are a major contributor to fibrous cap development and stability through de-differentiation to extracellular matrix-producing cells. We previously showed that the antioxidant enzyme cytoglobin (CYGB) is expressed in vascular SMCs and regulates SMC dependent vascular remodeling and gene expression. In the present study, we investigated the function of SMC-CYGB in atherosclerosis. To this end, we generated a mouse line with SMC-specific deletion of Cygb and simultaneous SMC-lineage tracing. We found that SMC specific deletion of CYGB increased fibrous cap thickness in a 17-week PCSK9-AAV8 gain of function combined with Western diet mouse model of atherosclerosis. SMC specific deletion of CYGB increased collagen deposition and SMC cellularity of the fibrous cap in the absence of changes in total plaque and necrotic core sizes. CYGB expression in SMCs was associated with transdifferentiation towards a fibroblast-like, matrix remodeling phenotype. Finally, CYGB was expressed in the fibrous cap of human coronary atherosclerotic lesions and was associated with ACTA2 positive cells. These results provide first-time evidence that SMC-CYGB reduces plaque stability by decreasing cap thickness, collagen deposition, and SMC cellularity.