Abstract P011: Novel Roles Of Global, Intestinal, And Kidney Proximal Tubule Sodium And Hydrogen Exchanger 3 In Angiotensin Ii-induced Hypertension

Abstract

The present study used global ( Nhe3 -/- ), kidney-selective (tg Nhe3 -/- ), and proximal tubule-specific Na + /H + exchanger 3 (NHE3)-deficient mice (PT- Nhe3 -/- ) to test the hypothesis that NHE3 is required for the full development of angiotensin II (Ang II)-induced hypertension in mice. Four groups of adult male, age-matched wild-type (WT), global Nhe3 -/- , kidney-selective tg Nhe3 -/- and proximal tubule-specific Nhe3 -/- mice were infused with: a) saline; b) Ang II (10 pmol/min, i.v.); Ang II via an osmotic minipump for 2 weeks (1.5 mg/kg/day, i.p.); or treated with Ang II and losartan concurrently for 2 weeks (20 mg/kg/day, p.o.). Under basal conditions, global Nhe3 -/- , kidney-selective tg Nhe3 -/- and proximal tubule-specific Nhe3 -/- mice all showed significantly lower systolic, diastolic, and mean arterial pressure than wild-type mice (~15 ± 3 mmHg, P <0.01). The hypotensive phenotype in both global Nhe3 -/- and kidney-selective tg Nhe3 -/- mice was associated with abnormal intestinal structures, diarrhea, increased 24 h fecal Na + excretion, and salt wasting ( P <0.01). By contrast, there were no differences in intestinal structures and fecal Na + excretion between wild-type and PT- Nhe3 -/- mice. PT- Nhe3 -/- mice showed significant diuretic and natriuretic responses compared with wild-type mice ( P <0.01). Acute infusion of Ang II markedly increased arterial blood pressure in a time-dependent manner in wild-type mice, as expected ( P <0.01), but the pressure response was attenuated in global Nhe3 -/- , kidney-selective tg Nhe3 -/- , and PT- Nhe3 -/- mice ( P <0.01). Furthermore, the chronic pressor response to 2-week Ang II infusion was also significantly attenuated in Nhe3 -/- , tgNhe3 -/- , and PT- Nhe3 -/- mice, compared with wild-type mice ( P <0.01). Finally, concurrent treatment with losartan completely blocked the acute and chronic pressor responses to Ang II in wild-type, Nhe3 -/- , tg Nhe3 -/- , and PT- Nhe3 -/- mice (p<0.01). Taken together, these data support the proof of concept that NHE3 in the small intestines and the proximal tubules of the kidney is required for maintaining basal blood pressure homeostasis and for the development of Ang II-induced hypertension. Supported by NIH grants, 2R01DK102429-03A1, 1R56HL130988-01, and 2R01DK067299-10A1.