Abstract 582: Overexpression of Catalase Impairs Aortic Valve Function and Accelerates Valvular Calification in Mice

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Previous studies have reported increases in oxidative stress due to reductions in antioxidant enzymes in calcified regions of stenotic human aortic valves. Whether reductions in antioxidant enzymes are adaptive, maladaptive, or an epiphenomenon in calcifying aortic valves remains unclear. Thus, the purpose of this study was to test whether overexpression of catalase reduces valvular calcification and slows progression of aortic valve stenosis in mice. Wild type (WT) mice with calcific aortic valve disease (ldlr-deficient, apoB100-only) were crossed with transgenic mice that overexpress human catalase (TG). All mice were fed a western diet (TD88137; Harlan Teklad). Functional echocardiogram data was collected and analyzed at early (3 months) and advanced (12 months) stages of valve disease, and valves were OCT embedded, sectioned, and stained for calcium levels (Alizarin Red). The transgenic valves show a slight increase in calcification compared to wild type counterparts. While there were no differences in valve function between genotypes at the early time point, cusp separation was decreased in the transgenic mice (0.74 ± 0.02 mm) compared to their wild-type littermates (0.84 ± 0.03 mm) at the 12 month time point (p < 0.05). In a subset of animals, valve calcification also tended to increase in transgenic mice at both time points compared to their wild-type littermates. In conclusion, overexpression of catalase resulted in a surprising finding of accelerated valvular calcification and stenosis. Interestingly, this finding aligns with the findings from several negative clinical trials testing antioxidant therapies in humans with atherosclerosis, suggests that the net impact of changing redox balance on disease progression are highly context dependent, and that increasing antioxidant capacity may not be a viable strategy to slow progression of calcific aortic valve disease in humans.