Literature DB >> 12839873

Various intracellular compartments cooperate in the release of nitric oxide from glycerol trinitrate in liver.

Andrey V Kozlov1, Barbara Dietrich, Hans Nohl.   

Abstract

1. Glycerol trinitrate (GTN) has been used in therapy for more than 100 years. Biological effects of GTN are due to the release of the biomediator nitric oxide (NO). However, the mechanism by which GTN provides NO, in particular in liver, is still unknown. In this study, we provide experimental evidence showing that cytoplasm, endoplasmic reticulum, and mitochondria are required for the release of NO from GTN in the liver. 2. NO and nitrite (NO(2)(-)) were determined using low-temperature electron paramagnetic resonance and the Griess reaction, respectively. 3. The first step of GTN biotransformation is the release of NO(2)(-). This step is performed in cytoplasm and catalyzed by glutathione-S-transferase. The second step is the rate-limiting step where NO(2)(-) is slowly reduced to NO. This is mainly catalyzed by cytochrome P-450. The second phase can be significantly enhanced by decreasing the pH value, a situation which occurs during ischemia. At high NADPH concentrations exceeding physiological values, cytochrome P-450 catalyzes GTN biotransformation without the involvement of cytoplasmic glutathione-S-transferase. 4. In conclusion, our data show that NO(2)(-) derived from the first step of biotransformation of GTN in the liver is the precursor of NO but not a product of NO degradation; consequently, NO(2)(-) levels are not likely to be a marker of NO release from GTN as earlier suggested.

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Year:  2003        PMID: 12839873      PMCID: PMC1573917          DOI: 10.1038/sj.bjp.0705323

Source DB:  PubMed          Journal:  Br J Pharmacol        ISSN: 0007-1188            Impact factor:   8.739


  41 in total

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Authors:  Toshihiro Matsuzaki; Mayuko Sakanashi; Junko Nakasone; Katsuhiko Noguchi; Kanako Miyagi; Makiko Sakanashi; Ichiro Kukita; Yoko Aniya; Matao Sakanashi
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  17 in total

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Journal:  Br J Pharmacol       Date:  2007-01-15       Impact factor: 8.739

2.  Antihypertensive and antioxidant effects of a single daily dose of sodium nitrite in a model of renovascular hypertension.

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Review 3.  Potential of dietary nitrate in angiogenesis.

Authors:  Christos Rammos; Peter Luedike; Ulrike Hendgen-Cotta; Tienush Rassaf
Journal:  World J Cardiol       Date:  2015-10-26

Review 4.  Nitrite in organ protection.

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Journal:  Br J Pharmacol       Date:  2014-01       Impact factor: 8.739

5.  Mitochondrial aldehyde dehydrogenase-2 (ALDH2) Glu504Lys polymorphism contributes to the variation in efficacy of sublingual nitroglycerin.

Authors:  Yifeng Li; Dandan Zhang; Wei Jin; Chunhong Shao; Pengrong Yan; Congjian Xu; Haihui Sheng; Yan Liu; Jinde Yu; Yuying Xie; Yingnan Zhao; Daru Lu; Daniel W Nebert; Donald C Harrison; Wei Huang; Li Jin
Journal:  J Clin Invest       Date:  2006-01-26       Impact factor: 14.808

6.  Differential nitros(yl)ation of blood and tissue constituents during glyceryl trinitrate biotransformation in vivo.

Authors:  David R Janero; Nathan S Bryan; Fumito Saijo; Vijay Dhawan; David J Schwalb; Michael C Warren; Martin Feelisch
Journal:  Proc Natl Acad Sci U S A       Date:  2004-11-18       Impact factor: 11.205

7.  Vascular xanthine oxidoreductase contributes to the antihypertensive effects of sodium nitrite in L-NAME hypertension.

Authors:  Marcelo F Montenegro; Lucas C Pinheiro; Jefferson H Amaral; Graziele C Ferreira; Rafael L Portella; Jose E Tanus-Santos
Journal:  Naunyn Schmiedebergs Arch Pharmacol       Date:  2014-06       Impact factor: 3.000

Review 8.  Nitrite as regulator of hypoxic signaling in mammalian physiology.

Authors:  Ernst E van Faassen; Soheyl Bahrami; Martin Feelisch; Neil Hogg; Malte Kelm; Daniel B Kim-Shapiro; Andrey V Kozlov; Haitao Li; Jon O Lundberg; Ron Mason; Hans Nohl; Tienush Rassaf; Alexandre Samouilov; Anny Slama-Schwok; Sruti Shiva; Anatoly F Vanin; Eddie Weitzberg; Jay Zweier; Mark T Gladwin
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Review 9.  Mitochondria as metabolizers and targets of nitrite.

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10.  Blue laser light increases perfusion of a skin flap via release of nitric oxide from hemoglobin.

Authors:  Rainer Mittermayr; Anatoly Osipov; Christina Piskernik; Susanne Haindl; Peter Dungel; Carina Weber; Yuri A Vladimirov; Heinz Redl; Andrey V Kozlov
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