Details

Autor(en) / Beteiligte

• deBoer, Tara R.
• Palomino, Rafael I.
• Idiga, Sharon O.
• Millhauser, Glenn L.
• Mascharak, Pradip K.

Titel

Tyrosine nitration in peptides by peroxynitrite generated in situ in a light-controlled platform: Effects of pH and thiols

Ist Teil von

• Journal of inorganic biochemistry, 2014-09, Vol.138, p.24-30

Ort / Verlag

United States: Elsevier Inc

Erscheinungsjahr

2014

Link zum Volltext

Quelle

MEDLINE

Beschreibungen/Notizen

• Peroxynitrite has been shown to play a critical role in inflammation and affords 3-nitrotyrosine as the hallmark product. The reported methods of generating this reactive nitrogen species in situ often fails to provide a high and steady flux of peroxynitrite resulting in poor yields of 3-nitrotyrosine. Herein we report a two-component peroxynitrite-generating platform in which this anion is produced in a biomimetic fashion and under the control of visible light. Incorporation of the nitric oxide- and superoxide-generating components in polymer matrices allows easy alterations of pH in the reaction wells of this platform. We have demonstrated very efficient nitration of tyrosine by peroxynitrite at different pH values and with varying concentrations of carbonate. In addition to tyrosine, a set of tyrosine-containing peptides was also studied. Presence of glutathione in the reaction wells increases the extent of tyrosine nitration in such peptide substrates presumably by raising the lifetime of nitric oxide in the reaction medium. When a cysteine residue was included in the sequence of the peptide, the extent of nitration of the tyrosine residue was found to depend on the position of the cysteine residue with respect to tyrosine. The extent of tyrosine nitration is strongly attenuated when the cysteine residue is directly adjacent to the tyrosine. This effect has been attributed to an intramolecular radical transfer mechanism. Taken together, results of this study demonstrate the potential of this light-controlled platform as a convenient bioanalytical tool in studying the reactions of peroxynitrite under widely varying conditions. Highly efficient nitration of tyrosine in model peptides has been achieved under varied pH, CO2 and thiol concentrations within the wells of a peroxynitrite-generating platform controlled by light. Placement of a neighboring cysteine residue strongly attenuates the effects of peroxynitrite on tyrosine. [Display omitted]