Formation of S-nitrosothiols from regiospecific reaction of thiols with N-nitrosotryptophan derivatives

Abstract

S-nitrosothiols transport nitric oxide in vivo, and so-called transnitrosation reactions (i.e. the transfer of the nitroso function from nitrosothiol to thiolate) are believed o be involved in this process. In the present study we examined the N-nitrosotryptophan derivative-dependent nitrosation of thiols, a hitherto ignored possibility for the formation of S-nitrosothiols. The corresponding products were identified by 15N-NMR spectrometry. The fact that the reaction proceeded under hypoxic conditions as well as in non-aqueous solution strongly indicated the occurrence of a transnitrosation reaction. Interestingly, S-nitrosothiols could only very slowly transnitrosate N-terminal-blocked tryptophan derivatives like melatonin in non-aqueous solution but did not induce such a reaction in water. The indole moiety of the N-nitrosotryptophan derivatives was fully restituted during the reaction with thiols, as demonstrated by both capillary zone electrophoresis and fluorescence spectroscopy. A determination of the Arrhenius parameters demonstrated that the corresponding rate constants were comparable with the ones known for the transfer of the nitroso function from nitrosothiol to thiolate. Thus, N-nitrosotryptophan-dependent nitrosation of thiols may occur in vivo and might offer the possibility of developing a new class of vasodilative drugs.