Selective downregulation of neutrophils by a phosphatidic acid generation inhibitor in a porcine sepsis model

Abstract

Effects of lisofylline (1-(5-R-hydroxyhexyl)-3,7-dimethylxanthine), a functional inhibitor of phosphatidic acid (PA) generation derived from de novo synthesis, on neutrophil function were examined in a porcine sepsis model. Hanford minipigs (18-25 kg) were randomly separated into six groups of six animals each: (1) saline control group; (2) sepsis control group, infused with Pseudomonas aeruginosa (1 x 10(6) colony-forming units/kg/min) for 2 h; (3) lisofylline control group, given a 25 mg/kg bolus of lisofylline 30 min prior to time zero, followed by a continuous infusion of 10 mg/kg/h throughout the study; (4) lisofylline pretreatment sepsis group, given lisofylline 30 min prior to sepsis, (5) lisofylline 1-h post-treatment sepsis group, and (6) lisofylline 2-h post-treatment sepsis group. All animals were studied for 6 h. Neutrophils were isolated at -0.5, 2, and 6 h. In the pretreatment and 1-h post-treatment groups, sepsis-induced neutrophil attachment to fibronectin was significantly attenuated. Sepsis-enhanced phagocytic activity was significantly reduced in the lisofylline pretreatment sepsis group, but not in the post-treatment groups. No treatment affected phorbol 12-myristate 13-acetate-induced chemiluminescence and basal filamentous actin content, which increased in sepsis, and cap formation, which declined in sepsis. Sepsis caused neutropenia, pretreatment produced neutrophilia, and 1-h post-treatment caused the neutropenia to recover to control levels. Interestingly, toward the end of the 6-h period, the neutrophil count was higher in the lisofylline control group than in the saline control groups. Thus, the inhibition of PA generation from de novo synthesis during sepsis not only can selectively downregulate some neutrophil functions but can also reverse neutropenia.