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Literature DB >> 18458940

H(2)S and HS(-) donor NaHS releases nitric oxide from nitrosothiols, metal nitrosyl complex, brain homogenate and murine L1210 leukaemia cells.

Karol Ondrias¹, Andrej Stasko, Sona Cacanyiova, Zdena Sulova, Olga Krizanova, Frantisek Kristek, Lubica Malekova, Vladimir Knezl, Albert Breier.

Abstract

Nitrosoglutathione [(GSNO), 500 nmol/l] relaxed the norepinephrine precontracted rat aortic rings. The relaxation effect was pronouncedly enhanced by H(2)S- and HS(-)-donor NaHS (30 micromol/l) at 7.5 pH but not at 6.3 pH. To study molecular mechanism of this effect, we investigated whether NaHS can release NO from NO donors. Using an electron paramagnetic resonance spectroscopy method of spin trap and by measuring the NO oxidation product, which is nitrite, by the Griess reaction, we report that NaHS released NO from nitrosothiols, namely from GSNO, S-nitroso-N-acetyl-DL: -penicillamine (SNAP), from metal nitrosyl complex nitroprusside (SNP) and from rat brain homogenate and murine L1210 leukaemia cells. From the observation that the releasing effect was more pronounced at 8.0 pH than 6.0 pH, we suppose that HS(-), rather than H(2)S, is responsible for the NO-releasing effect. Since in mammals, H(2)S and HS(-) are produced endogenously, we assume that their effect to release NO from nitrosothiols and from metal nitrosyl complexes are responsible for some of their biological activities and that this mechanism may be involved in S-nitrosothiol-signalling reactions.

Entities: Chemical Disease Species

Mesh：

Substances：

Year: 2008 PMID： 18458940 DOI： 10.1007/s00424-008-0519-0

Source DB: PubMed Journal: Pflugers Arch ISSN： 0031-6768 Impact factor: 3.657

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H(2)S and HS(-) donor NaHS releases nitric oxide from nitrosothiols, metal nitrosyl complex, brain homogenate and murine L1210 leukaemia cells.

Review 1. Nitrosylation. the prototypic redox-based signaling mechanism.

2. Nitric oxide: a physiologic mediator of penile erection.

3. Exogenous hydrogen sulfide (H2S) protects against regional myocardial ischemia-reperfusion injury--Evidence for a role of K ATP channels.

4. Regulation of vascular nitric oxide in vitro and in vivo; a new role for endogenous hydrogen sulphide?

5. The possible role of hydrogen sulfide as an endogenous smooth muscle relaxant in synergy with nitric oxide.

6. Spin trapping of nitric oxide by ferro-chelates: kinetic and in vivo pharmacokinetic studies.

Review 7. H(2)S and cellular proliferation and apoptosis.

8. H(2)S-induced vasorelaxation and underlying cellular and molecular mechanisms.

9. Contractile and vasorelaxant effects of hydrogen sulfide and its biosynthesis in the human internal mammary artery.

10. The possible role of hydrogen sulfide as a smooth muscle cell proliferation inhibitor in rat cultured cells.

Review 1. Hydrogen sulphide as a signalling molecule regulating physiopathological processes in gastrointestinal motility.

2. H2S regulation of nitric oxide metabolism.

Review 3. Vascular complications of cystathionine β-synthase deficiency: future directions for homocysteine-to-hydrogen sulfide research.

4. Hydrogen sulfide generated by L-cysteine desulfhydrase acts upstream of nitric oxide to modulate abscisic acid-dependent stomatal closure.

Review 5. Small molecule signaling agents: the integrated chemistry and biochemistry of nitrogen oxides, oxides of carbon, dioxygen, hydrogen sulfide, and their derived species.

6. Diligustilide releases H₂S and stabilizes S-nitrosothiols in ethanol-induced lesions on rat gastric mucosa.

7. Effects of hydrogen sulphide on motility patterns in the rat colon.

Review 8. The dichotomous role of H₂S in cancer cell biology? Déjà vu all over again.

Review 9. Hydrogen sulfide as an oxygen sensor.

Review 10. Homocysteine in renovascular complications: hydrogen sulfide is a modulator and plausible anaerobic ATP generator.

Review 1. Nitrosylation. the prototypic redox-based signaling mechanism.

Review 7. H(2)S and cellular proliferation and apoptosis.

Review 1. Hydrogen sulphide as a signalling molecule regulating physiopathological processes in gastrointestinal motility.

Review 3. Vascular complications of cystathionine β-synthase deficiency: future directions for homocysteine-to-hydrogen sulfide research.

Review 5. Small molecule signaling agents: the integrated chemistry and biochemistry of nitrogen oxides, oxides of carbon, dioxygen, hydrogen sulfide, and their derived species.

Review 8. The dichotomous role of H2S in cancer cell biology? Déjà vu all over again.

Review 9. Hydrogen sulfide as an oxygen sensor.

Review 10. Homocysteine in renovascular complications: hydrogen sulfide is a modulator and plausible anaerobic ATP generator.

Review 8. The dichotomous role of H₂S in cancer cell biology? Déjà vu all over again.