Boris J. Czermak1, 2, Vidya Sarma2, Carl L. Pierson2, Roscoe L. Warner2, Markus Huber-Lang1, 2, Nicolas M. Bless1, Hagen Schmal1, Hans Peter Friedl1
& Peter A. Ward2
1
Department of Trauma Surgery, University of Freiburg Medical School, Freiburg/Breisgau, Germany D-79106
2
Department of Pathology, University of Michigan Medical School, Ann Arbor, Michigan 48109
Correspondence should be addressed to Peter A. Ward pward@umich.edu
Sepsis in humans is a difficult condition to treat and is often associated with a high mortality rate. In this study, we induced sepsis in rats using cecal ligation and puncture (CLP). In rats depleted of the complement factor C3, CLP led to very short survival times (about 4 days). Of the rats that underwent CLP ('CLP rats') that were C3-intact and treated with preimmune IgG, most (92%) were dead by 7 days. Blood neutrophils from these rats contained on their surfaces the powerful complement activation product C5a. This group had high levels of bacteremia, and their blood neutrophils when stimulated in vitro had greatly reduced production of H2O2, which is known to be essential for the bactericidal function of neutrophils. In contrast, when companion CLP rats were treated with IgG antibody against C5a, survival rates were significantly improved, levels of bacteremia were considerably reduced, and the H2O2 response of blood neutrophils was preserved. Bacterial colony-forming units in spleen and liver were very high in CLP rats treated with preimmune IgG and very low in CLP rats treated with IgG antibody against C5a, similar to values obtained in rats that underwent 'sham' operations (without CLP). These data indicate that sepsis causes an excessive production of C5a, which compromises the bactericidal function of neutrophils. Thus, C5a may be a useful target for the treatment of sepsis.
