OR04-5 Stimulation of Protein Disulfide Isomerase Activity by Activation of The Renin-Angiotensin System

Understanding the molecular and cellular mechanisms that are affected by activation of the renin-angiotensin system (RAS) are important for development of novel therapeutic strategies to more specifically treat hypertension and reduce cardiovascular risk. RAS regulates blood pressure (BP) in part via its effector molecule, angiotensin II (AngII), a potent vasopressor that stimulates the production of reactive oxygen species (ROS). Protein disulfide isomerase (PDI) is a multifunctional oxidoreductase that catalyzes thiol/disulfide interchange reactions within the endoplasmic reticulum and regulates ROS production. Also, PDI is present in circulation and at the cell surface of platelets, lymphocytes, erythrocytes and endothelial cells and plays a critical role in initiating thrombus formation. However, the interaction of RAS and PDI remain unclear. We hypothesized that RAS activation would lead to increased PDI levels thus contributing to oxidative stress. First, we studied the in vitro effects of AngII on EA.hy926, a human endothelial cell line, and measured PDI activity. Our results show that AngII dose and time dependently increased extracellular PDI activity (p<0.05, n=6); an event that was reduced to baseline levels by preincubation with 0.5 uM losartan, an AngII type 1 receptor antagonist (ARB). Consistent with these results, AngII stimulated: 1) a 3-fold rise of extracellular PDI levels as determined by ELISA (p<0.05, n=4); 2) a 2.5-fold increase in PDI mRNA levels by RT-PCR (p<0.05, n=4); and 3) increased PDI protein levels by western blot analyses that were blocked by losartan. We also studied the effect of AngII on extracellular PDI activity in differentiated HL-60 cells, a human polymorphonuclear neutrophil cell line, and observed significantly increased extracellular PDI activity following incubation with AngII (p<0.05, n=4). We then characterized the in vivo effects of exogenous AngII infusion on PDI in Sprague-Dawley rats, a model of increased BP, inflammation and target organ damage. We studied three conditions: (1) control; (2) AngII infused (80 ng/min x 28 days); (3) AngII + ARB (10 mg losartan/kg/day x 21 days). AngII infusion led to significant increases in plasma PDI levels that were reduced by 20% following ARB treatment (p<0.05, n=5/group). We then studied a model of naturally increased AngII and hypertension, the Otsuka Long Evans Tokushima Fatty rats (OLETF) and their strain controls that were randomly assigned to the following groups: (1) untreated strain controls; (2) untreated OLETF; (3) OLETF + ARB. OLETF rats had increased BP and significantly greater circulating PDI activity than control rats that was likewise blocked by ARB treatment (p<0.05; n=6/group). Thus, RAS activation represents a novel mechanism for increased PDI levels and activity that may contribute to the deleterious effects of disordered RAS in cardiovascular disease.