D. A. Wessels scite author profile

Human endothelial cells exposed to H2O2 demonstrate decreased prostacyclin (PGI2) synthesis due to decreased prostaglandin H synthase (PGH synthase) activity. We tested the hypothesis that PGH synthase activity could be protected from H2O2 by a reversible nonsteroidal anti-inflammatory drug. Experiments demonstrate that ibuprofen if present during H2O2 exposure, protects endothelial cell PGH synthase against the decrease in prostaglandin formation caused by H2O2. Additional studies demonstrated that decreasing arachidonic acid release from cell phospholipids during H2O2 exposure did not protect PGI2 synthesis following H2O2 exposure. In other experiments, ibuprofen did not chelate Fe2+ in a conformation that inhibited the reactivity of Fe2+. In addition, ibuprofen did not scavenge HO. However, we demonstrate that ibuprofen significantly protects purified PGH synthase cyclooxygenase activity from the effects of H2O2. The results confirm the hypothesis. These findings suggest that ibuprofen displaces oxidant species from the cyclooxygenase site of PGH synthase, thereby preventing oxidation of the functional groups important for PGH synthase activity.

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Prostaglandin E2 synthesis after oxidant stress is dependent on cell glutathione content

Hempel¹,

Wessels²

1994

American Journal of Physiology-Cell Physiology

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The role of glutathione in protecting prostaglandin (PG) generation after exposure of fibroblasts to oxidant stress was investigated. Exposure of 3T3 fibroblasts to H2O2, followed by washing and then 20 microM arachidonic acid, caused a dose-dependent decrease in PG synthesis as assessed by radioimmunoassay. PGE2 production decreased from 3.7 +/- 1.1 to 0.15 +/- 0.04 pmol/microgram protein, and prostacyclin (PGI2) formation decreased from 0.56 +/- 0.03 to 0.06 +/- 0.03 pmol/microgram protein after exposure to 200 microM H2O2. Decreasing intracellular glutathione with 50 micrograms/ml 1,3-bis(chloroethyl)-1-nitrosourea (BCNU) enhanced the H2O2-induced decrease in PGE2 synthesis. Another glutathione-depleting agent, 1-chloro-2,4-dinitrobenzene (CDNB), also potentiated the H2O2-induced decrease in PGE2 formation. However, although PGI2 production was decreased by H2O2, neither BCNU nor CDNB potentiated this decrease. Without oxidant stress, extreme glutathione depletion decreased PGE2 synthesis and caused PGI2 synthesis to exceed PGE2. In summary, oxidant stress decreases both PGE2 and PGI2 formation. However, the primary effect of decreasing cell glutathione during oxidant stress is a reduction in PGE2 formation, not PGI2. This implies that the predominant effect of glutathione depletion during oxidant stress is on the PGE2 isomerase(s) and not PGH synthase or PGI2 synthase.

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D. A. Wessels

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