Requirements for hydroperoxide by the cyclooxygenase and peroxidase activities of prostaglandin H synthase

Purified prostaglandin H synthase contains cyclooxygenase activity that forms the hydroperoxide, prostaglandin G, and peroxidase activity which removes hydroperoxides. Since hydroperoxides are necessary activators of cyclooxygenase activity, the paradoxical presence of two apparently opposing activities requires careful interpretation. Kinetic studies indicate that the concentration of hydroperoxide needed for full cyclooxygenase activity is much less than that which gives 50 percent effectiveness with the peroxidase. Thus, the peroxidase activity of the synthase is very ineffective in decreasing the hydroperoxide concentration below levels that still permit rapid cyclooxygenase action.     

Effect of supplementation with a cysteine donor on muscular performance.

Oxidative stress contributes to muscular fatigue. GSH is the major intracellular antioxidant, the biosynthesis of which is dependent on cysteine availability. We hypothesized that supplementation with a whey-based cysteine donor [Immunocal (HMS90)] designed to augment intracellular GSH would enhance performance. Twenty healthy young adults (10 men, 10 women) were studied presupplementation and 3 mo postsupplementation with either Immunocal (20 g/day) or casein placebo. Muscular performance was assessed by whole leg isokinetic cycle testing, measuring peak power and 30-s work capacity. Lymphocyte GSH was used as a marker of tissue GSH. There were no baseline differences (age, ht, wt, %ideal wt, peak power, 30-s work capacity). Follow-up data on 18 subjects (9 Immunocal, 9 placebo) were analyzed. Both peak power [13 +/- 3.5 (SE) %, P < 0.02] and 30-s work capacity (13 +/- 3.7%, P < 0.03) increased significantly in the Immunocal group, with no change (2 +/- 9.0 and 1 +/- 9.3%) in the placebo group. Lymphocyte GSH also increased significantly in the Immunocal group (35.5 +/- 11.04%, P < 0.02), with no change in the placebo group (-0.9 +/- 9.6%). This is the first study to demonstrate that prolonged supplementation with a product designed to augment antioxidant defenses resulted in improved volitional performance.     

Phenolic anticyclooxygenase agents in antiinflammatory and analgesic therapy

This report demonstrates that a non-steroidal antiinflammatory drug, MK 447, and phenol act similarly to inhibit cyclooxygenase activity in vitro in a dose-dependent manner when the concentration of peroxide activators is decreased by glutathione peroxidase. Increasing the rate of peroxide removal with higher amounts of glutathione peroxidase increases the inhibitory potency of the phenolic agents. The results support ascribing a vital role to tissue peroxides in facilitating prostaglandin biosynthesis in vivo. They also resolve the paradoxical problem of predicting antiinflammatory activity when an agent appears to stimulate prostaglandin formation. A corollary concept is that tissues with general hyperalgesic conditions may have lower levels of hydroperoxide than are found in inflammatory conditions, and thus be more amenable to therapy with phenolic agents like MK 447.