Literature DB >> 23136998

Discriminative EPR detection of NO and HNO by encapsulated nitronyl nitroxides.

Andrey A Bobko1, Alexander Ivanov, Valery V Khramtsov.   

Abstract

Nitric oxide, •NO, is one of the most important molecules in the biochemistry of living organisms. By contrast, nitroxyl, NO-, one-electron reduced analog of •NO which exists at physiological conditions in its protonated form, HNO, has been relatively overlooked. Recent data show that HNO might be produced endogenously and display unique biological effects. However, there is a lack of specific and quantitative methods of detection of endogenous HNO production. Here we present a new method for discriminative •NO and HNO detection by nitronyl nitroxides (NNs) using electron paramagnetic resonance (EPR). It was found that NNs react with •NO and HNO with similar rate constants of about 10(4) M(-1) s(-1) but yield different products: imino nitroxides and the hydroxylamine of imino nitroxides, correspondingly. An EPR approach for discriminative •NO and HNO detection using liposome-encapsulated NNs was developed. The membrane barrier of liposomes protects NNs against reduction in biological systems while is permeable to both analytes, •NO and HNO. The sensitivity of this approach for the detection of the rates of •NO/HNO generation is about 1 nM/s. The application of encapsulated NNs for real-time discriminative •NO/HNO detection might become a valuable tool in nitric oxide-related studies.

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Year:  2012        PMID: 23136998      PMCID: PMC3973727          DOI: 10.3109/10715762.2012.746460

Source DB:  PubMed          Journal:  Free Radic Res        ISSN: 1029-2470


  41 in total

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2.  Detection of nitroxyl (HNO) by membrane inlet mass spectrometry.

Authors:  Meredith R Cline; Chingkuang Tu; David N Silverman; John P Toscano
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5.  The reduction potential of nitric oxide (NO) and its importance to NO biochemistry.

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Journal:  Proc Natl Acad Sci U S A       Date:  2002-08-12       Impact factor: 11.205

Review 6.  Orthogonal properties of the redox siblings nitroxyl and nitric oxide in the cardiovascular system: a novel redox paradigm.

Authors:  David A Wink; Katrina M Miranda; Tatsuo Katori; Daniele Mancardi; Douglas D Thomas; Lisa Ridnour; Michael G Espey; Martin Feelisch; Carol A Colton; Jon M Fukuto; Pasquale Pagliaro; David A Kass; Nazareno Paolocci
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7.  Design of liposome-based pH sensitive nanoSPIN probes: nano-sized particles with incorporated nitroxides.

Authors:  Yakov Y Woldman; Sergey V Semenov; Andrey A Bobko; Igor A Kirilyuk; Julya F Polienko; Maxim A Voinov; Elena G Bagryanskaya; Valery V Khramtsov
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8.  Kinetic feasibility of nitroxyl reduction by physiological reductants and biological implications.

Authors:  Matthew I Jackson; Tae H Han; Laura Serbulea; Andrew Dutton; Eleonora Ford; Katrina M Miranda; K N Houk; David A Wink; Jon M Fukuto
Journal:  Free Radic Biol Med       Date:  2009-07-02       Impact factor: 7.376

Review 9.  Examining nitroxyl in biological systems.

Authors:  Jon M Fukuto; Matthew I Jackson; Nina Kaludercic; Nazareno Paolocci
Journal:  Methods Enzymol       Date:  2008       Impact factor: 1.600

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Authors:  J Joseph; B Kalyanaraman; J S Hyde
Journal:  Biochem Biophys Res Commun       Date:  1993-04-30       Impact factor: 3.575
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Review 2.  Exchange Phenomena in the Electron Paramagnetic Resonance Spectra of the Nitroxyl and Trityl Radicals: Multifunctional Spectroscopy and Imaging of Local Chemical Microenvironment.

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Review 5.  Measurement of Reactive Oxygen Species, Reactive Nitrogen Species, and Redox-Dependent Signaling in the Cardiovascular System: A Scientific Statement From the American Heart Association.

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7.  Thiol-Activated HNO Release from a Ruthenium Antiangiogenesis Complex and HIF-1α Inhibition for Cancer Therapy.

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8.  Kinetics of Azanone (HNO) Reactions with Thiols: Effect of pH.

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  8 in total

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