Abstract P185: Role of Ucp2 in the Oxidative/nitrosative Stress-mediated Hypertension Associated with Dj-1 Depletion

Abstract

DJ-1 -/- mice, relative to wild-type (WT) littermates, have increased blood pressure (BP) ( DJ-1 -/- :130±4 vs WT:100±3 mmHg, n=6/8). and renal expressions of nitro-tyrosine (+76±31% of WT mice, n=5) and malondialdenyde (+63±23% of WT mice, n=4). Tempol, a superoxide dismutase mimetic, decreased the BP of DJ-1 -/- mice ( DJ-1 -/- : before tempol:119±3; after tempol:100±1 mmHg vs WT, n=4) and renal malondialdehyde production ( DJ-1 -/- : before tempol:+40±5%; after tempol:-24±5% vs WT, n=4) but increased serum nitrate/nitrite levels (+72±30%, n=4), indicating the presence of both oxidative and nitrosative stress. Lack of DJ-1 makes some cells vulnerable to endoplasmic reticulum (ER) stress. However, renal mRNA expression of ER stress markers, GRP94, ATF-4, ATF-6, sXBP-1, CHOP, caspase-12, and caspase-3 was not different between DJ-1 -/- and WT (n=7) mice. Markers of inflammation, IL-6, TNF α, MCP-1, NFκB, and T-cell and macrophage infiltration, were also not increased in the kidney of DJ-1 -/- mice. By contrast, renal mitochondrial (mt) HSP60, but not mtHSP40, was increased in DJ-1 -/- mice (2.9±0.1 fold, n=4) but there were no changes in the renal mRNA expressions of Nix/BNIP3L, BNIP3, PINK, FIS1, MFN1, MFN2, PPRC1, NRF-1, and PGC1, indicating that mt oxidative stress did not affect mt function. The renal expression of UCP2, which is involved in the control of mt-reactive oxygen species production, was elevated in DJ-1 -/- mice (4.1±1.1 fold of WT, n=4). Silencing UCP2 in mouse renal proximal tubule cells (-0.46.5±0.01 fold) increased the expression of ER stress and apoptosis markers CHOP (2±0.4 fold), ATF4 (2.6±0.6 fold), caspase-3 (2.3±0.4 fold), and caspase-12 (1.7±0.2 fold)(n=3). There were no differences in renal renin expression, sodium excretion, and serum creatinine between DJ-1 -/- and WT mice (n=5). There were no abnormalities in renal morphology, including fibrosis, in the kidneys of DJ-1 -/- mice. However, urinary KIM-1 was increased in DJ-1 -/- mice (148±22% of WT mice, n=4) and decreased by tempol (-58±3%, n=4); renal UCP2 expression was also partially normalized by tempol (1.8±0.2 fold of WT, n=4). UCP2 may protect from the development of renal ER stress and damage in the mt oxidative/nitrosative stress associated with DJ-1 depletion.