Nitrite-generated NO circumvents dysregulated arginine/NOS signaling to protect against intimal hyperplasia in Sprague-Dawley rats
Matthew J. Alef, … , Edith Tzeng, Brian S. Zuckerbraun
Matthew J. Alef, … , Edith Tzeng, Brian S. Zuckerbraun
Published March 23, 2011
Citation Information: J Clin Invest. 2011;121(4):1646-1656. https://doi.org/10.1172/JCI44079.
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Research Article

Nitrite-generated NO circumvents dysregulated arginine/NOS signaling to protect against intimal hyperplasia in Sprague-Dawley rats

Abstract

Vascular disease, a significant cause of morbidity and mortality in the developed world, results from vascular injury. Following vascular injury, damaged or dysfunctional endothelial cells and activated SMCs engage in vasoproliferative remodeling and the formation of flow-limiting intimal hyperplasia (IH). We hypothesized that vascular injury results in decreased bioavailability of NO secondary to dysregulated arginine-dependent NO generation. Furthermore, we postulated that nitrite-dependent NO generation is augmented as an adaptive response to limit vascular injury/proliferation and can be harnessed for its protective effects. Here we report that sodium nitrite (intraperitoneal, inhaled, or oral) limited the development of IH in a rat model of vascular injury. Additionally, nitrite led to the generation of NO in vessels and SMCs, as well as limited SMC proliferation via p21Waf1/Cip1 signaling. These data demonstrate that IH is associated with increased arginase-1 levels, which leads to decreased NO production and bioavailability. Vascular injury also was associated with increased levels of xanthine oxidoreductase (XOR), a known nitrite reductase. Chronic inhibition of XOR and a diet deficient in nitrate/nitrite each exacerbated vascular injury. Moreover, established IH was reversed by dietary supplementation of nitrite. The vasoprotective effects of nitrite were counteracted by inhibition of XOR. These data illustrate the importance of nitrite-generated NO as an endogenous adaptive response and as a pathway that can be harnessed for therapeutic benefit.

Authors

Matthew J. Alef, Raghuveer Vallabhaneni, Evie Carchman, Sidney M. Morris Jr., Sruti Shiva, Yinna Wang, Eric E. Kelley, Margaret M. Tarpey, Mark T. Gladwin, Edith Tzeng, Brian S. Zuckerbraun

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Figure 7

Sodium nitrite reversed established IH following vascular injury.

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Sodium nitrite reversed established IH following vascular injury. (A) IH...
(A) IH continues to progress from 2 to 4 weeks after injury (#P < 0.05). Sodium nitrite treatment on days 15–28 after vascular injury decreased I/M ratios by 66% ± 6% compared with untreated injured controls as measured 4 weeks after injury (*P < 0.01, n = 6/group). (B) Rats kept on a NOx diet, which had an exaggerated injury response, were also rescued by sodium nitrite supplementation in drinking water from days 15 to 28 after injury. Sodium nitrite resulted in a 72% ± 8% reduction in I/M ratios compared with rats kept on a NOx diet without nitrite supplementation (*P < 0.01, n = 6/group). (C) Immunohistochemistry for p21 (red) demonstrated minimal expression within injured vessels versus nitrite-treated injured vessels. Scale bar: 50 μm.