pr-39 and Reperfusion-Injury

We and others have previously demonstrated that intestinal ischemia-reperfusion (I/R) is associated with a large increase in oxidant production that contributes to microvascular barrier disruption in the small bowel. It has been suggested that the bulk of tissue damage during reperfusion can be attributed to adherent, activated neutrophils. From these observations, we hypothesized that pretreatment with PR-39, an endogenous neutrophil antibacterial peptide that is also a potent inhibitor of the neutrophil NADPH oxidase, would prevent postischemic oxidant production and the development of oxidant-dependent sequelae to I/R such as increased venular protein leakage. To test this postulate, oxidant production, venular protein leakage, leukocyte adhesion, and leukocyte emigration were monitored during reperfusion in control (no ischemia) rat mesenteric venules and in mesenteric venules subjected to I/R alone or PR-39 + I/R. Treatment with a single intravenous bolus injection of PR-39 (administered at a dose to achieve an initial blood concentration of 5 microM) abolished I/R-induced leukocyte adhesion and emigration in vivo. In vitro studies indicated that PR-39 prevents platelet-activating factor-induced neutrophil chemotaxis as well as phorbol myristate acetate (PMA)-stimulated intercellular adhesion molecule-1 expression by cultured endothelial cells. PR-39 pretreatment of rat neutrophils also blocked PMA-stimulated neutrophil adhesion to activated endothelial monolayers. In vivo, I/R was associated with a marked and progressive increase in oxidant production and venular protein leakage during reperfusion, effects that were abolished by PR-39 treatment. The results of this study indicate that PR-39 completely abolishes postischemic leukocyte adhesion and emigration. The time course for inhibition of oxidant production by PR-39 suggests that its antiadhesive properties account for this effect of the peptide. PR-39 may thus be therapeutically useful for prevention of neutrophil adhesion and activation during the postischemic inflammatory response.

Topics: Animals; Anti-Bacterial Agents; Antimicrobial Cationic Peptides; Male; Mesentery; Microcirculation; Neutrophils; Oxidative Stress; Peptides; Rats; Rats, Sprague-Dawley; Reperfusion Injury