Biomedicines (Mar 2022)

Mechanistic Insights into Inorganic Nitrite-Mediated Vasodilation of Isolated Aortic Rings under Oxidative/Hypertensive Conditions and S-Nitros(yl)ation of Proteins in Germ-Free Mice

  • Paul Stamm,
  • Sanela Kalinovic,
  • Matthias Oelze,
  • Sebastian Steven,
  • Alexander Czarnowski,
  • Miroslava Kvandova,
  • Franziska Bayer,
  • Christoph Reinhardt,
  • Thomas Münzel,
  • Andreas Daiber

DOI
https://doi.org/10.3390/biomedicines10030730
Journal volume & issue
Vol. 10, no. 3
p. 730

Abstract

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The prevalence and clinical importance of arterial hypertension are still growing. Inorganic nitrite (NO2−) represents an attractive dietary antihypertensive agent, but its metabolism and mode of action, which we aimed to investigate with the present study, are not completely understood. Isolated aortic rings from rats were treated ex vivo with oxidants, and rats were infused in vivo with angiotensin-II. Vascular responses to acetylcholine (ACh) and nitrite were assessed by isometric tension recording. The loss of vasodilatory potency in response to oxidants was much more pronounced for ACh as compared to nitrite ex vivo (but not in vivo with angiotensin-II). This effect may be caused by the redox regulation of conversion to xanthine oxidase (XO). Conventionally raised and germ-free mice were treated with nitrite by gavage, which did not improve ACh-mediated vasodilation, but did increase the plasma levels of S-nitros(yl)ated proteins in the conventionally-raised, but not in the germ-free mice. In conclusion, inorganic nitrite represents a dietary drug option to treat arterial hypertension in addition to already established pharmacological treatment. Short-term oxidative stress did not impair the vasodilatory properties of nitrite, which may be beneficial in cardiovascular disease patients. The gastrointestinal microbiome appears to play a key role in nitrite metabolism and bioactivation.

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