Cellular confluence determines injury-induced prostaglandin E2 synthesis by human keratinocyte cultures.

When keratinocyte cultures become confluent, their prostaglandin E2 synthesis is suppressed. To determine whether the injury response is characterized by increased prostaglandin E2 synthesis, an in vitro injury model was developed. When confluent keratinocyte cultures were focally lethally irradiated using ultraviolet light B, a dose-dependent increase in prostaglandin E2 synthesis was induced by the injury. After irradiation, confluent cultures' prostaglandin E2 synthesis increased for 2 days to 8-fold more than controls, then decreased to control values by day 6. Increased prostaglandin E2 synthesis was first detected 8 h after injury. Focal irradiation of non-confluent cultures (killing isolated colonies) caused no change in prostaglandin E2 synthesis, indicating that culture continuity must be disrupted before synthesis increases. In addition, partial irradiations of petri dishes demonstrated that enhanced metabolism was confined to cells adjacent to the injury site and was not mediated by a soluble factor. When confluent and injured cultures were incubated with [14C]arachidonic acid, and the products formed analyzed by thin layer chromatography, 10-fold more prostaglandin E2 microgram protein was seen in irradiated cultures relative to confluent controls. The products formed by each group were the same, and no consistent increases in metabolites other than prostaglandin E2 were observed. The increased synthesis of prostaglandin E2 by injured cultures was apparently due to an increase in cyclooxygenase activity as determined by kinetic experiments. These data indicate that the pattern of metabolism of arachidonic acid seen in non-confluent cultures is similar to that seen in injury, and that cell-cell contact modulates enhanced prostaglandin E2 synthesis.