Reactive oxygen species induced structural alterations of substance P

Substance P (SP(1-11)) was exposed to a continuous flux of superoxide ([Formula: see text]) or hydroxyl radicals ((.)OH) in a hypoxanthine (HX)/xanthine oxidase (86 mU) system in the presence of 1 mM deferoxamine and 40 mM D-mannitol or 50 μM FeCI(3). 6H(2)O and 50 μM EDTA, respectively. [Formula: see text] caused fragmentation between the Phe(7) and Phe(8), whereas (.)OH induced cleavage also between the Phe(8) and Gly(9). Reactive oxygen species H(2)O(2) and HCIO did not cause fragmentation, but modification of the amino acid side chains and/or aggregation with altered hydrophobicity in reverse phase high performance liquid chromatography compared to native SP(1-11). Furthermore, exposure of SP(1-11) to phorbol myristate acetate preactivated neutrophils resuited in products similar to those observed upon exposure to superoxide or hydroxyl radicals in a cell-free HX/xanthine oxidase system. This study suggests that, in contrast to rigid proteins, fragmentation is relatively easily induced in a small peptide like SP(1-11), perhaps due to strain on the peptide and t-carbon bonds caused by the movable, random coil configuration acquired by SP(1-11) in an aqueous solution. Oxidative modification might modulate paracrine actions of SP(1-11) at site of inflammation.