The mechanisms of S-nitrosothiol decomposition catalyzed by iron

Nitric Oxide - Biology and Chemistry

Volumn 10, Issue 2, 2004, Pages 60-73

  Vanin, Anatoly F ^a,b   Papina, Alina A ^b   Serezhenkov, Vladimir A ^a   Koppenol, Willem H ^b  

^a SEMENOV INSTITUTE OF CHEMICAL PHYSICS   (Russian Federation)

^b ETH ZURICH   (Switzerland)

Author keywords

Dinitrosyl iron complexes; Iron; Mononitrosyl iron complexes with dithiocarbamates; Nitric oxide; S Nitrosothiols

Indexed keywords

CITRIC ACID; CYSTEINE; GLUTATHIONE; IRON COMPLEX; MEGLUMINE; NITRIC OXIDE DONOR; PHOSPHATE; PROLINE; S NITROSOTHIOL; THIOL DERIVATIVE;

ARTICLE; CATALYSIS; CATALYST; CHEMICAL INTERACTION; CHEMICAL REACTION KINETICS; COMPLEX FORMATION; DECOMPOSITION; ELECTRON SPIN RESONANCE; FLOW MEASUREMENT; PRIORITY JOURNAL; ULTRAVIOLET SPECTROSCOPY;

CATALYSIS; CYSTEINE; ELECTRON SPIN RESONANCE SPECTROSCOPY; HEMOGLOBINS; IRON; KINETICS; NITROGEN OXIDES; PENICILLAMINE; S-NITROSOGLUTATHIONE; S-NITROSOTHIOLS; SORBITOL; SPECTROPHOTOMETRY, ULTRAVIOLET; SPIN LABELS; THIOCARBAMATES;

EID: 2342479749     PISSN: 10898603     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.niox.2004.02.005     Document Type: Article

References (22)

1. Vanin A.F., Malenkova I.V., Serezhenkov V.A. Iron catalyzes both decomposition and synthesis of S-nitrosothiols: optical and EPR studies. Nitric Oxide: Biol. Chem. 1:1997;191-203
2. Constanza S., Menage S., Purello R., Bonomo R.P., Fontecave M. Re-examination of the formation of dinitrosyl-iron complexes during reaction of S-nitrosothiols with Fe(II). Inorg. Chim. Acta. 318:2001;1-7
3. LoBello M., Nucceetelli M., Cacurri A.M., Stella L., Paker M.W., Rossojohn J., McKinstry W.J., Mozzi A.F., Federici G., Polizio F., Pederson J.Z., Ricci G. Human glutathione transferase P1-1 and nitric oxide carriers. J. Biol. Chem. 276:2001;43138-43145
4. Vanin A.F., Muller B., Alencar J.L., Lobysheva I.I., Nepveu F., Stoclet J.-C. Evidence that intrinsic iron but not intrinsic copper determines S-nitrosocysteine decomposition in buffer solution. Nitric Oxide: Biol. Chem. 7:2002;194-209
5. Vanin A.F., Muller B., Alencar J.L., Lobysheva I.I., Nepveu F., Stoclet J.-C. Influence of transition metals on stability of various S-nitrosothiols. Curr. Top. Biophys. 26:2002;101-113
6. Vanin A.F. Iron dithiocarbamate as a spin trap for nitric oxide detection. Methods Enzymol. 301:1999;269-279
7. McDonald C.C., Phillips W.D., Mower H.F. An electron spin resonance study of some complexes of iron, nitric oxide and anionic ligands. J. Am. Chem. Soc. 87:1965;3319-3325
8. Wanat A., Schneppensieper T., Stochel G., van Eldik R., Bill E., Wieghardt K. Kinetics, mechanism, and spectroscopy of the reversible binding of nitric oxide to aquated iron(II). An undergraduate text book reaction revisited. Inorg. Chem. 41:2002;4-10
9. Burbaev D.Sh., Vanin A.F., Blumenfeld L.A. Electronic and spatial structure of dinitrosyl non-heme iron complexes with various anionic ligands. Zhurnal Strukt. Khimii (Rus). 12:1971;251-258
10. Burbaev D.Sh., Vanin A.F. Modelling of complexes of non-heme in biological materials. Doklady Akad. Nauk (Rus). 190:1970;1348-1350
11. Woolum J.C., Tiezzi E., Commoner B. Electron spin resonance of iron-nitric oxide complexes with amino acids, peptides and proteins. Biochim. Biophys. Acta. 160:1968;311-320
12. Vanin A.F., Stukan R.A., Manukhina E.B. Physical properties of dinitrosyl iron complexes with thiol-containing ligands in relation with their vasodilator activity. Biochim. Biophys. Acta. 1295:1996;5-12
13. Vanin A.F. On the stability of the dinitrosyl-iron-cysteine complex, a candidate for the endothelial-derived relaxing factor. Biochemistry (Moscow). 60:1995;225-229
14. Komarov A., Lai C.-S. Detection of nitric oxide production in mice by spin-trapping electron paramagnetic resonance spectroscopy. Biochim. Biophys. Acta. 1272:1995;29-36
15. Vanin A.F. Interconversion of two possible forms of the endothelium-derived relaxing factor - S-nitrosocysteine and the dinitrosyl iron complex with cysteine. Biofizika (Rus). 38:1993;751-761
16. Paschenko S.V., Khramtsov V.V., Scatchkov M.P., Plyusnin V.F., Bassenge E. EPR and laser flasch photolysis studies of the reaction of nitric oxide with water soluble NO trap Fe(II)-proline-dithiocarbamate complex. Biochem. Biophys. Res. Commun. 225:1996;577-584
17. Pou S., Tsai P., Porasuphatana S., Halpern H.J., Chandramouli G.V.R., Barth E.D., Rosen G.M. Spin trapping of nitric oxide by ferro-chelates: kinetics and in vivo pharmacokinetics studies. Biochim. Biophys. Acta. 1427:1999;216-226
18. Fujii S., Kobayashi K., Tagawa S., Yoshimura T. Reaction of nitric oxide with iron(II) complex of N-(dithiocarboxy) sarcosine: a new type of reductive nitrosylation involving iron(IY) as an intermediate. J. Chem. Soc., Dalton Trans. 19:2000;3310-3315
19. Mathews W.R., Kerr S. Biological activity of S-nitrosothiols: the role of nitric oxide. J. Pharmacol. Exp. Ther. 267:1993;1529-1536
20. Pearsall K.A., Bonner F.T. Aqueous nitrosyl iron(II) chemistry 2. Kinetics and mechanism of nitric oxide reduction. The dinitrosyl complex. Inorg. Chem. 21:1982;1978-1985
21. Severina I.S., Bussygina O.G., Pyatakova N.V., Malenkova I.V., Vanin A.F. Activation of soluble guanylate cyclase by NO donors - S-nitrosothiols, and dinitrosyl-iron complexes with thiol-containing ligands. Nitric Oxide. 8:2003;155-163
22. Vedernikov Ju.P., Mordvintcev P.I., Malenkova I.V., Vanin A.F. Endothelium-derived relaxing factor is not identical to nitric oxide. Moncada S., Higgs A. Nitric Oxide from L-Arginine: a Bioregulatory System. 1990;189-196