Electrochemical determination of S-nitrosothiols with a Clark-type nitric oxide electrode.

Low-molecular-mass thiols and nitric oxide (NO) form S-nitrosothiols (thionitrites) in the presence of oxygen. Thionitrites play an integral role in a variety of NO-dependent physiological processes. This study describes a sensitive analytical method for the quantitative determination of thionitrites. The method is based on the Cu+-catalyzed homolytic cleavage of thionitrites and electrochemical detection of the released NO with a Clark-type electrode. Cu+ was generated by addition of Cu(NO3)2 to samples containing 1 mM GSH or 4 mM L-cysteine as reducing agents. The effect of Cu(NO3)2 on the release of NO from GSNO was concentration-dependent. In the presence of 1 mM GSH, the EC50 for Cu(NO3)2 was 1.34 +/- 0.08 mM. Using cysteine instead of GSH, NO release was quantitative at much lower concentrations of Cu(NO3)2 (EC50 = 8.5 +/- 2.8 microM. NO release was not significantly affected by pH (7.0-9.0) and was inhibited by the Cu+-selective chelator neocuproine, whereas the Cu2+ chelator cuprizone was approximately 16-fold less potent. Calibration of the method with GSNO, S-nitroso-N-acetyl-penicillamine, or S-nitrosated bovine serum albumin yielded linear plots of initial rates of NO release versus thionitrite concentration from 50 nM to 5 microM. This method may be useful for the quantitative determination of thionitrites in biological samples. Copyright 1998 Academic Press.