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Redox signaling is an early event in the pathogenesis of renovascular hypertension

International Journal of Molecular Sciences (2013) 14(9) 18640-18656
DOI: 10.3390/ijms140918640
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Abstract

Activation of the renin-angiotensin-aldosterone system plays a critical role in the development of chronic renal damage in patients with renovascular hypertension. Although angiotensin II (Ang II) promotes oxidative stress, inflammation, and fibrosis, it is not known how these pathways intersect to produce chronic renal damage. We tested the hypothesis that renal parenchymal cells are subjected to oxidant stress early in the development of RVH and produce signals that promote influx of inflammatory cells, which may then propagate chronic renal injury. We established a reproducible murine model of RVH by placing a tetrafluoroethhylene cuff on the right renal artery. Three days after cuff placement, renal tissue demonstrates no histologic abnormalities despite up regulation of both pro-and anti-oxidant genes. Mild renal atrophy was observed after seven days and was associated with induction of Tnfα and influx of CD3+ T cells and F4/80+ macrophages. By 28 days, kidneys developed severe renal atrophy with interstitial inflammation and fibrosis, despite normalization of plasma renin activity. Based on these considerations, we propose that renal parenchymal cells initiate a progressive cascade of events leading to oxidative stress, interstitial inflammation, renal fibrosis, and atrophy. © 2013 by the authors; licensee MDPI, Basel, Switzerland.

Figures

  • Figure 1. (A) Systolic blood pressure (BP) in mice with renal artery stenosis (RAS) (N = 10) was higher compared to mice with sham surgery (N = 5) at all time-points. BP was measured in conscious mice pre-surgery and at 3, 7, 14, and 28 days post surgery; (B) Mean heart weight in mice with RAS was significantly increased at 14 days following RAS surgery compared to mice with sham surgery. * p < 0.05 in comparison to sham.
  • Figure 2. (A) Representative gross images of the kidneys from mice with RAS and sham surgery at 3, 7, 14, and 28 days; (B) Planar surface measurements of the stenotic kidney (STK) of mice with RAS (N = 10) and sham (N = 5) surgeries; (C) Representative histological images of stenotic kidney of mice with RAS surgery at 3, 7, 14, and 28 days post-surgery and mice with sham surgery at three days post-surgery as stained with hematoxylin and eosin (H & E). All images were taken at 400×. * p < 0.05 in comparison to sham.
  • Figure 3. (A) Representative micro CT images of kidneys from mice with sham (N = 3) and RAS (N = 3) surgery, showing loss of vascular density in both stenotic and contralateral kidneys; (B) Both stenotic (STK) and contralateral (CLK) kidneys of mice subjected to RAS surgery showed loss of microvessel density. Representative figure showed representative distribution of vessels with diameter <0.52 mm in kidneys of mice with sham and RAS surgery. Vessel distribution was calculated as ratio of vessel volume to total kidney volume.
  • Figure 4. (A) Representative histological images of stenotic kidney of mice with RAS (N = 10) surgery at 3,7,14, and 28 days post-surgery and mice with sham (N = 5) surgery at three days post-surgery as stained with anti-CD3 (T-cells) and anti-F4/80 (macrophages) antibody. All images were taken at 400×; (B) Extent of T-cell infiltration as assessed by quantifying % area positive for CD3 stains; (C) Extent of macrophage infiltration as assessed by quantifying % area positive for F4/80 stains. Assessments were done at 200× magnification over the whole cortex using color assisted image analysis. * p < 0.05, ** p < 0.01 in comparison to sham.
  • Figure 5. (A) Mice with sham (N = 5) surgery experienced oxidative stress (DHE stains) only at three days post-surgery while mice with RAS (N = 10) surgery experienced increasing level of oxidative stress; (B) Plasma renin activity (as assessed by angiotensin I production) is elevated by three days post-surgery in mice with RAS and peak at 14 days post-surgery before returning to baseline level by 28 days post-surgery; (C) Renin (Ren1) expression was up regulated in the stenotic kidney of mice with RAS at all time-points; (D) Angiotensinogen (Agt) expression in the stenotic kidney of mice with RAS became significantly elevated at 28 days post-surgery. For (C) and (D), data was normalized against 18s transcript and expressed as relative expression compared to the seven day sham. * p < 0.05 in comparison to sham.
  • Figure 6. The clusterograms (heat maps) represent relative expression levels for all samples on genes showing significant changes on Oxidative Stress and Antioxidant Defense PCR Array from SABiosciences. N = 3 for each group.
  • Figure 7. Kidney gene expression changes in Ncf1 (A), Ncf2 (B), Nox4 (C), Sod1 (D), Sod2 (E), and Sod3 (F) associated with renal artery stenosis (RAS). Data (means ± SE) for each gene was normalized to 18s transcripts and expressed as relative expression compared to the seven day sham. N = 10 for RAS groups at each time points. N = 5 for sham groups at each time points. Control group (N = 5) refers to mice without surgery. * p < 0.05, ** p < 0.01 in comparison to sham.
  • Figure 8. Gene expression changes in Tnfα (A), Nox4 (B), and Gpx6 (C) on CD11b+ (macrophages), CD90+ (T-cells), and CD11b−/CD90− (kidney parenchymal cells) fractions. Data (means ± SE) for each gene was normalized to 18s transcripts and expressed as relative expression compared to the seven day sham. N = 5 for both RAS and sham groups at each time points. * p < 0.05, ** p < 0.01 in comparison to sham.

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CITATION STYLE

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Hartono, S. P., Knudsen, B. E., Zubair, A. S., Nath, K. A., Textor, S. J., Lerman, L. O., & Grande, J. P. (2013). Redox signaling is an early event in the pathogenesis of renovascular hypertension. International Journal of Molecular Sciences, 14(9), 18640–18656. https://doi.org/10.3390/ijms140918640

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