- Complement component C5 modulates the systemic tumor necrosis factor response in murine endotoxic shock.
Complement component C5 modulates the systemic tumor necrosis factor response in murine endotoxic shock.
Patients with disseminated Neisseria meningitidis infections (meningococcemia) suffer from a fulminant shock syndrome that is accompanied by extraordinarily high concentrations in serum of tumor necrosis factor (TNF). People with homozygous deficiencies of late complement components (C5, C6, C7, and C8) experience a high incidence of disseminated neisserial infections yet suffer from an attenuated form of the disease. The mechanisms that account for this disparity in host response are unclear, but they may in part be related to differences in the systemic TNF response that are modulated by terminal complement components (C5 to C9). The role of C5 in the modulation of the systemic endotoxin-induced TNF response was studied with matched strains of C5-deficient (B10 D2/Osn) and complement-sufficient (B10 D2/Nsn) mice. Following lipopolysaccharide (LPS) administration, complement-sufficient mice exhibited more rapid increases in pulmonary and hepatic vascular permeabilities than did C5-deficient controls. Complement-sufficient mice developed acute passive hepatic congestion, they appeared more ill than C5-deficient mice, and they exhibited a twofold greater rise in serum TNF activity compared with that by C5-deficient mice. C5-deficient mice reconstituted with normal serum before an LPS injection exhibited pulmonary and hepatic vascular permeability increases and serum TNF levels approaching those observed in complement-sufficient mice. Alveolar and peritoneal macrophages isolated from complement-sufficient and C5-deficient mice and incubated in heat-inactivated serum did not exhibit differences in TNF mRNA expression or secreted TNF activity following stimulation with LPS. However, incubation of macrophages in complement-sufficient mouse serum (before LPS stimulation) resulted in increased TNF mRNA expression and TNF activity compared with those in cells incubated in C5-deficient serum. In vitro studies employing human complement components and peripheral blood monocytes revealed that recombinant C5a, in the presence or absence of LPS, can induce increased concentrations of TNF and that C5b to C9 had no additional modulatory effect on the TNF response. These data suggest that C5 modulates the endotoxin-triggered TNF response. The role of complement components distal to C5 (i.e., C5b to C9) in the endotoxin-triggered TNF response remains unclear.