Abstract 2128: Hepcidin Loss Demonstrates Sex Dependent Differences In Aortic Aneurysm Size

Abstract

Background: Studies suggest circulating iron levels play a role in the pathophysiology of abdominal aortic aneurysms (AAAs). Low iron levels lead to medial degeneration and VSMC dysfunction while elevated iron levels promote oxidative stress. Hepcidin is a major iron regulatory hormone that binds ferroportin to reduce serum iron levels, and its removal in VSMCs has been shown to exacerbate AAAs; however, the role of sex in this mechanism remains understudied. The goal of the current study is to investigate the potential role of sex in iron metabolism in AAAs. Methods: Male and female C57BL/6 wild-type (WT/WT), heterozygous hepcidin knock-out (WT/KO) and hepcidin KO (KO/KO) underwent peri-adventitial application of porcine pancreatic elastase on the infrarenal aorta (n=10-19/group). At day 14, the aortas were measured using video micrometry and harvested for immunohistochemistry. In separate studies, male and female hepcidin WT/WT and KO/KO underwent elastase application and systemic b-aminopropionitrile (BAPN, 0.02%) administration and were harvested at 28 days. Finally, male and female LysM Cre Ferroportin flx/flx mice and their controls underwent elastase application and harvested at 14 days (n=5-10/group). Results: Hepcidin WT/KO and KO/KO male mice had dose dependent protection of aneurysm formation compared with controls (WT/WT: 145.5±33.8% vs WT/KO: 110.7±34.8% vs KO/KO: 53.7±13.7%, p=0.0001 by ANOVA). Female Hepcidin WT/KO and KO/KO mice exhibited increased AAA size compared with their controls (KO/KO: 119.0±23.5% vs WT/KO: 101.6 ±28.6% vs WT/WT: 71.2±22.0%, p =.0011 by ANOVA). In the elastase + BAPN model, Hepcidin KO/KO male mice had less aortic dilation compared to controls (KO/KO: 196.0 ±31.9% vs WT/WT: 476.8±82.2%, p =.0002 by Mann-Whitney) while female KO/KO mice exhibited greater aortic dilation (WT/WT: 186.7±26.0% vs. KO/KO: 406.9±62.2%, p=0.006). Male LysM Cre Ferroportin flx/flx mice had decreased aortic dilation (WT/WT: 132.5±19.3% vs flx/flx: 53.5±7.8%, p=0.001). Conclusion: Elimination of hepcidin in AAA formation exhibited protective effects in male and deleterious effects in female mice. This data suggests targeting of hepcidin using drug-based therapies could have gender-specific clinical implications.