Abstract 100: Sorting Nexin 1: Molecular Mechanisms and Pharmacogenomics [Session Title: Concurrent XVI A: Oxidative Stress I]

Sorting nexin 1 (SNX1) plays a pivotal role for the normal activity of renal dopamine D5 receptor (D5R). Kidney-restricted, Snx1-siRNA depletion of SNX1 results in impaired natriuretic response to salt load and hypertension in mice. Genetic ablation of the Snx1 gene (Snx1-/-) resulted in increased oxidative stress, impaired sodium excretion, and elevated systolic blood pressure (SBP, 131.3±6.4 mm Hg, n=5) in mice. The D5R has antioxidant properties by negatively regulating the expression of the NADPH oxidase (NOX). We found that NOX1, NOX2, and p47phox, as well as the antioxidant PON2, conceivably as compensation, were increased in Snx1-/- mice compared with wild-type littermates. Snx1-/- mice had higher ROS (218.6±7.7%), NOX activity (43.9±3.3 AU/mg protein/min vs. 25.98±3.5), and other markers of oxidative stress, e.g., malonyldialdehyde (32.5±3.4 pmol/mg protein vs. 17.2±2.1) and 3-nitrotyrosine (128.3±4%), which were all normalized by 10-day renal infusion of apocynin, a drug that prevents NOX assembly. The SBP in Snx1-/- mice was also normalized by apocynin (131.3±4.8 mm Hg to 105.7±0.3). Compared with human renal proximal tubule cells obtained from normotensive Caucasian males (NT cells), those from hypertensive subjects (HT cells) had reduced expression of SNX1 (160±2.1%, n=4=5/group), increased ROS (182±10.5%), and blunted cAMP response (110.8±35.3%) and sodium transport inhibition (10...
Source: Hypertension - Category: Cardiology Authors: Tags: Session Title: Concurrent XVI A: Oxidative Stress I Source Type: research