Analysis of Hydroperoxide-Induced Tyrosyl Radicals and Lipoxygenase Activity in Aspirin-Treated Human Prostaglandin H Synthase-2†

A hydroperoxide-induced tyrosyl radical has been proposed as a key cyclooxygenase intermediate for the “basal” isoform of prostaglandin H synthase (PGHS-1). In the present study with the “inducible” isoform (PGHS-2), hydroperoxide was also found to generate a radical in high yield, a wide singlet at g = 2.0058 (29 G peak to trough). Reaction of PGHS-2 with a tyrosine-modifying reagent, tetranitromethane (TNM), resulted in cyclooxygenase inactivation and a much narrower radical EPR signal (22 G peak to trough). Addition of a cyclooxygenase inhibitor, nimesulide, similarly resulted in a narrow PGHS-2 radical. In PGHS-1, cyclooxygenase inhibition by tyrosine nitration with TNM or by active site ligands leads to generation of a narrow EPR instead of a wide EPR, with both signals originating from authentic tyrosyl radicals, indicating that the hydroperoxide-induced radicals in PGHS-2 are also tyrosyl radicals. Treatment of PGHS-2 with aspirin (acetyl salicylic acid, ASA) was previously shown to result in acety...