Abstract

Background: Abdominal aortic aneurysm (AAA) is a life-threatening cardiovascular disorder characterized by inflammation in the aortic media, extracellular matrix degradation, aortic dilation and rupture. Increasing evidence identifies a role for oxidative stress, although the oxidative reactions involved requires clarification. Myeloperoxidase (MPO) is a pro-inflammatory neutrophil-derived enzyme that promotes cardiovascular disease by catalyzing tissue damaging oxidative reactions. Here we investigated the impact of MPO pharmacological inhibition and gene deletion on AAA. For pharmacological inhibition, the clinically trialed 2-thioxanthine class of irreversible MPO inhibitors was employed. Methods: Apolipoprotein E (ApoE -/- ) or ApoE -/- /MPO -/- gene-knockout mice were infused with angiotensin II (AngII) by osmotic mini-pumps for 28 days and received 2-thioxanthine or vehicle via daily oral gavage. AAA development was monitored by micro-ultrasound measurement of aortic diameter and post-mortem measurement of maximal aortic width at the supra-renal aorta. Atherosclerosis was measured at the aortic sinus by morphometry and aortic arch by en face analysis of oil-red-O-stained lipids. Cardiac fibrosis was measured by picrosirius red staining. Results: AngII infusion afforded an AAA incidence rate of 60% in ApoE -/- mice that was reduced to 25% by 2-thioxanthine treatment. 2-Thioxanthines also inhibited the AngII-mediated increase in aortic diameter and cardiac fibrosis, but not the AngII-induced accelerated development of atherosclerosis at the aortic sinus and arch. Paradoxically, studies in ApoE -/- /MPO -/- mice established that MPO gene-deletion did not affect AngII-induced AAA but significantly attenuated the increase in aortic arch atherosclerosis. Notably, 2-thioxanthines significantly inhibited AAA incidence and severity in AngII-infused ApoE -/- /MPO -/- mice. Conclusion: These studies highlight the complexity surrounding the role of MPO in a murine model of AAA and atherosclerosis. Importantly, this work establishes that 2-thioxanthines can protect against AAA in the absence of MPO, supporting that this clinically trialed MPO inhibitor drug class can target other heme peroxidases in vivo .

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