The importance of C5 and the role of the alternative complement pathway in leukocyte chemotaxis induced in vivo and in vitro by Bacteroides fragilis lipopolysaccharide

Abstract

Chambers implanted subcutaneously in C5 normal (C5 N) and C5 deficient (C5 D) mice were used to examine the migration of polymorphonuclear leukocytes (PMNs) into the wound chamber fluid in response to injected Bacteroides fragilis lipopolysaccharide (LPS). The difference in PMN migration was highly significant between the two mouse strains, the C5 D mice showing no initial, but a low, delayed migration. The results from the study indicated that chemotaxis plays a major role in the accumulation of PMNs in the acute inflammatory response. Intraperitoneal endotoxin stimulation also showed a significantly lower total number of leukocytes in the exudate from C5 D mice as well as a delayed migration of cells compared to C5 N mice. No leukotactic mediators were elaborated in C5 D serum or exudate upon incubation with LPS when tested in a modified Boyden chamber. However, endotoxin-induced wound chamber fluid in C5 D mice showed an increasing leukotactic activity at the same time as the acute inflammatory response subsided in C5 N mice. Incubation of B. fragilis LPS in C4 deficient (C4 D) guinea pig serum indicated that the LPS was able to activate complement components to generated split products chemotacic for rabbit PMNs via the alternative complement pathway.