Effects of tenoxicam on superoxide anion formation, β-glucuronidase release and fMLP binding in human neutrophils : Comparison with other NSAIDs

Non-steroidal anti-inflammatory drugs (NSAIDs) are considered to exert their activity by interfering with the generation of arachidonate metabolites in various cells, mainly in neutrophils and monocytes. The inhibition of cellular cyclooxygenase enzyme, however, does not always correlate with the in vivo activity of these drugs. Recent evidence indicates that several NSAIDs may interfere with the stimulus-response coupling of inflammatory cells. In this study, the effects of tenoxicam, an oxicam derivative with a thienothiazine structure, on neutrophil activation were evaluated by the assessment of the following parameters: (1) superoxide anion generation by neutrophils and whole blood stimulated with N-formyl-methionyl-leucyl-phenylalanine (fMLP), the calcium ionophore A23187 and serum treated zymosan (STZ); (2) beta-glucuronidase release from neutrophils stimulated with fMLP, A23187 and STZ; (3) binding of [3H]fMLP to intact neutrophils. The results were compared to those obtained using piroxicam and diclofenac. Tenoxicam, added in vitro to whole blood, at concentrations ranging between 10(-5) and 3 x 10(-4) M, significantly inhibited the generation of superoxide anion induced by fMLP, A23187 and STZ. The activity of tenoxicam on whole blood was similar to that of piroxicam, whereas diclofenac had only minimal effects on this experimental system. In isolated cells tenoxicam inhibited the generation of superoxide anion induced by A23187 and STZ. In addition, at the 3 x 10(-4) M concentration, tenoxicam and diclofenac similarly inhibited O2- generation by neutrophils stimulated with fMLP, whereas piroxicam only minimally affected this parameter. Tenoxicam also slightly, but not significantly, inhibited beta-glucuronidase release by isolated neutrophils induced by all the agonists used. Specific binding of [3H]fMLP to neutrophils was inhibited by the three NSAIDs tested in a dose-dependent fashion and tenoxicam was the most potent. The affinities (Kd) of tenoxicam, piroxicam and diclofenac were 1.11, 1.80 and 2.70 x 10(-5) M, respectively. The mechanism of inhibition of [3H]fMLP binding by tenoxicam was non-competitive. It is concluded that tenoxicam, at concentrations achievable in plasma at steady state, effectively inhibits some of the processes involved in neutrophil activation, which bear some relevance in the inflammatory disease.