Macrophage Activation Decreases Macrophage Prostaglandin E2 Release in Experimental Trauma

Abstract

Prostaglandin E2 (PGE2) derived from macrophages following trauma may contribute to trauma-induced immunosuppression. This study evaluated the effect of glucan, a macrophage-activating agent, on macrophage PGE2 release in a murine trauma model. ICR/HSD mice were administered D5W, glucan pre-trauma, or glucan post-trauma, and subjected to hindlimb crush and amputation injury. Splenic macrophages were isolated 24 hours following trauma, cultured (24 hrs), and macrophage PGE2 levels were determined. In-vitro marrow proliferation was assessed as a measure of immune function. Crush-amputation injury increased (184%) macrophage PGE2 release. In contrast, glucan administration (pre or post) reduced PGE2 levels in macrophage supernatants (71% and 85%, respectively). A 52% decrease in in-vitro bone marrow proliferation was observed following trauma. Glucan pre- or post-trauma eliminated the suppression of bone marrow proliferation. In conclusion, macrophage-activating immunomodulators may exert beneficial effects following trauma by: 1) reducing macrophage PGE2 synthesis and release; and 2) reducing traumatic suppression of bone marrow proliferation.