Abstract P608: Obesity Induced Hypertension Exacerbated Through Upregulation Of Renal Naci Cotransporter, Reversed By Increasing Pgc-1α-ho-1 Gene Expression To Restore Mitochondrial Function

Introduction: Hypertension caused by chronic obesity as a result of high calorie food intake or in leptin receptor deficient db/db mice may be linked to mitochondrial dysfunction. Previously we and others have shown that an epoxyeicosatrienoic acid agonist (EET-A), reduced adiposity and ROS resulting in normalization of BP by unknown mechanisms. We hypothesize that EET-A will attenuate BP by restoring mitochondrial function through increasing the PGC-1α-HO-1 axis and increasing urinary sodium excretion by downregulating NCC channels. Methods: Db/db mice at 16-wks of age were divided into 3 treatment groups and for an additional 16-wks received: A) control, B) EET-A 1.5mg/100g BW i.p. 2x/week and C) EET-A and lentiviral (Ln)- PGC-1α shRNA (to suppress PGC-1α protein). Oxygen consumption (VO 2 ), visceral fat and blood glucose were determined. Additionally, renal tissues were harvested to measure the type 2 Na-K-Cl cotransporters (NKCC2), epithelial Na channels- (ENaC), NaCl cotransporters (NCC), PGC-1α, HO-1, insulin receptors, and mitochondrial biogenesis markers. Results: At the conclusion of 32 weeks: Group A, developed hypertension and presented with decreased urinary Na excretion, decreased VO 2 , decreased downstream PGC-1α signaling, and mitochondrial dysfunction. There were increased levels of NCCs but not of NKCC2s or ENaCs. Renal PGC-1α, HO-1, pAMPK, and mitochondrial fusion protein Mfn 1/2, and Opa1 were decreased, p<0.05. Group B, exhibited restoration of renal levels of PGC-1α, HO-1, pAMPK, and mitochondrial biogenesis proteins Mfn 1/2 and Opa1. NCC expression was reduced and was associated with an increase in urinary Na excretion; (p<0.05). The beneficial effect of EET-A observed in group B was suppressed in group C using Ln- PGC-1α shRNA which suppressed PGC-1α expression in renal tissue > 50% and was accompanied by the onset of even more severe suppression of urinary Na excretion than in Group A. Conclusion: Treatment of obese mice with EET-agonists leads to the recruitment of PGC-1α-HO-1 which enhances mitochondrial function and induces the downregulation of NCC channels and increased sodium excretion. EET may serve as a powerful therapeutic agent for the treatment of obesity induced hypertension.