Prior Angiotensin Converting Enzyme Inhibition Differentially Alters Angiotensin II‐Induced Oxidative Stress in Male and Female Hypertensive Rats

Abstract

Hypertension promotes fibrotic cardiac remodeling that involves oxidative stress and inflammation that contribute to heart failure. Transient angiotensin converting enzyme inhibitor (ACEi) treatment in male hypertensive rats (SHR) produces persistent changes in the left ventricle (LV) that render it resistant to future fibrosis and inflammation. Oxidative stress produced by NADPH oxidase (NOX) enzymes is linked to angiotensin II (Ang II)‐mediated fibrotic signaling. Ang II also promotes secretion of macrophage‐recruiting cytokines including monocyte chemoattractant protein 1 (MCP1) which can perpetuate oxidative stress. Thus the present study investigated the impact of transient ACEi‐induced cardio‐protection on subsequent Ang II‐induced inflammatory and oxidative stress responses. After a 2‐week ACEi treatment (enalapril, 30mg/kg/day) followed by a 2‐week washout period male and female SHRs (11 wk old) were infused with Ang II (400ng/kg/min, s.c.) or vehicle (saline, n=5‐11/group/sex) for 2 weeks. At time of euthanasia, a mid‐myocardial section was fixed and paraffin embedded and remaining LV tissue was collected for protein, RNA and DNA extraction. LV macrophage infiltration was determined histologically by staining for ED‐1. MCP1 gene expression was evaluated by RTqPCR, and pro‐oxidants (NOX2 and NOX4) and antioxidants (catalase and superoxide dismutase 2; SOD2) were measured by immunoblotting. Oxidative DNA damage was quantified using an 8‐hydroxy‐2’‐deoxyguanosine (8‐OHdG) ELISA. Cardiac MCP1 gene expression was increased by Ang II in both sexes with no impact of transient ACEi. However, Ang II induced LV macrophage infiltration (ED‐1) in males only which was attenuated by prior transient ACEi. LV NOX2 was increased by Ang II and attenuated by prior transient ACEi in both sexes. NOX4 was reduced in females previously treated with an ACEi, but not males. The antioxidant, catalase, was increased by Ang II in both sexes, but attenuated by transient ACEi in females only. Further, both catalase and SOD2 were positively correlated to NOX2 in females, but not males. This suggests that Ang II‐induced pro‐oxidant responses may be more tightly coupled with antioxidant responses in females. DNA damage as measured by 8‐OHdG was not significantly impacted by Ang II in males or females. However 8‐OHdG was reduced in males previously treated with an ACEi suggesting that an alternative antioxidant mechanism may be active in males previously treated with an ACEi. At this dose and duration of Ang II there is not significant oxidative DNA damage, but MCP1 and pro‐oxidants are increased in both sexes. Males exhibit greater macrophage infiltration, while females exhibit greater antioxidant responses; both of which are prevented by prior transient ACEi. In conclusion, there are sex‐specific inflammatory and oxidative stress responses to Ang II and transient ACEi that may impact future cardiac remodeling. Current and future studies will aim to identify mechanisms involved in transient ACEi‐mediated cardio‐protection and how these effects differ between males and females.