Modification of tryptophan and tryptophan residues in proteins by reactive nitrogen species

Formation of 3-nitrotyrosine by the reaction between reactive nitrogen species (RNS) and tyrosine residues in proteins has been analyzed extensively and it is used widely as a biomarker of pathophysiological and physiological conditions mediated by RNS. In contrast, few studies on the nitration of t...

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Bibliographic Details
Published in:Nitric oxide 2006-03, Vol.14 (2), p.152-161
Main Authors: Yamakura, Fumiyuki, Ikeda, Keiichi
Format: Article
Language:English
Subjects:
Animals
Humans
Myeloperoxidase
Nitration
Nitric Oxide - metabolism
Nitrosotryptophan
Nitrotryptophan
Oxidation
Oxidation-Reduction
Peroxynitrite
Reactive nitrogen species
Reactive Nitrogen Species - biosynthesis
Tryptophan - analogs & derivatives
Tryptophan - metabolism
Tryptophan residue
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Summary:Formation of 3-nitrotyrosine by the reaction between reactive nitrogen species (RNS) and tyrosine residues in proteins has been analyzed extensively and it is used widely as a biomarker of pathophysiological and physiological conditions mediated by RNS. In contrast, few studies on the nitration of tryptophan have been reported. This review provides an overview of the studies on tryptophan modifications by RNS and points out the possible importance of its modification in pathophysiological and physiological conditions. Free tryptophan can be modified to several nitrated products (1-, 4-, 5-, 6-, and 7-), 1- N-nitroso product, and several oxidized products by reaction with various RNS, depending on the conditions used. Among them, 1- N-nitrosotryptophan and 6-nitrotryptophan (6-NO 2Trp) have been found as the abundant products in the reaction with peroxynitrite, and 6-NO 2Trp has been the most abundant product in the reaction with the peroxidase/hydrogen peroxide/nitrite systems. 6-NO 2Trp has also been observed as the most abundant nitrated product of the reactions between peroxynitrite or myeloperoxidase/hydrogen peroxide/nitrite and tryptophan residues both in human Cu,Zn-superoxide dismutase and in bovine serum albumin, as well as the reaction of peroxynitrite with myoglobin and hemoglobin. Several oxidized products have also been identified in the modified Cu,Zn-SOD. However, no 1- N-nitrosotryptophan and 1- N-nitrotryptophan has been observed in the proteins reacted with peroxynitrite or the myeloperoxidase/H 2O 2/nitrite system. The modification of tryptophan residues in proteins may occur at a more limited number of sites in vivo than that of tyrosine residues, since tryptophan residues are more buried inside proteins and exist less frequently in proteins, generally. However, surface-exposed tryptophan residues tend to participate in the interaction with the other molecules, therefore the modification of those tryptophans may result in modulation of the specific interaction of proteins and enzymes with other molecules.
ISSN:1089-8603
1089-8611
DOI:10.1016/j.niox.2005.07.009