Abstract 460: Catalase Overexpression Modulates Plaque Fibrosis And Vascular Contractile Function In Aged Hyperlipidemic Mice

Abstract

Background: Plaque fibrosis and re-differentiation of vascular smooth muscle cells (VSMCs) from a contractile to a “synthetic” phenotype are hallmarks of advanced atherosclerosis. While in vitro studies demonstrated a clear role of oxidative stress in the loss of VSMC contractile phenotypes, the roles of specific antioxidant mechanisms and their therapeutic utility remain unclear. Here we test the hypothesis that overexpression of catalase protects against excess plaque fibrosis and losses in contractile phenotypes in vivo . Methods: We used littermate-matched, hypercholesteremic (ldlr -/- /ApoB 100/100 ; LA) mice lacking a transgenic construct (LA-CAT 0/0 ) or harboring a single copy of the human catalase gene (LA-CAT Tg/0 ), which were fed a Western Diet for 3 or 12 months. Isolated organ bath chambers, histopathological analyses, and quantitative RT-PCR were used to assess vasomotor function, structure, and molecular changes in aorta. Results: Oxidative stress increased with disease progression in aortic tissue from LA-CAT 0/0 mice and was modestly reduced in LA-CAT Tg/0 mice. Collagen deposition and fiber thickness increased with disease progression in LA-CAT 0/0 mice, and these increases in fiber thickness were attenuated in LA-CAT Tg/0 mice at 12 months and more pronounced in male mice. In parallel, we observed favorable rightward shifts in the vascular stress-strain relationship in LA-CAT Tg/0 mice that were more pronounced in aged male mice. Interestingly, these structural changes were associated with improved contractile responses to either PGF 2α or serotonin in male LA-CAT Tg/0 mice at 12 months. Consistent with these changes, the contractile marker calponin-1 was profoundly reduced with increasing age in LA-CAT 0/0 mice, with these changes being partially attenuated in aging, male LA-CAT Tg/0 mice. In vitro, treatment of VSMCs with PEG-catalase attenuated BMP2-dependent contractile protein expression. Conclusion: These results demonstrate that moderate overexpression of catalase can attenuate deleterious fibrotic and contractile changes associated with prolonged progression of atherosclerosis. Future mechanistic investigation exploring the context-dependence of these changes (e.g., sex dependence) is warranted.