Tumor necrosis factor antibody treatment of septic baboons reduces the production of sustained T-cell suppressive factors.

Post-traumatic septic complications result from impaired cell-mediated immune function, which is caused in part by circulating T-cell suppressive factors (TSFs). We examined whether tumor necrosis factor alpha (TNF-alpha) antibody treatment in a baboon sepsis model influences the production of TSFs, including interleukin-10 (IL-10) and transforming growth factor-beta (TGF-beta). Sepsis was induced in anesthetized baboons by Escherichia coli infusion, and caused an increase in plasma levels of TNF, TSF activity, IL-10, and active TGF-beta, as well as a decrease in latent TGF-beta. TNF antibody pretreatment reduced TNF levels by 98%. Transient TSF activity (0-4 h) was only marginally influenced, while sustained TSF activity (8-24 h) was markedly reduced. TSF activity at 24 h correlated with peak TNF levels. IL-10 levels, coinciding with early TSF activity, remained unchanged by anti-TNF treatment. Levels of active TGF-beta and the drop in latent TGF-beta were decreased. We conclude that anti-TNF treatment reduces sustained TSF activity and may partially restore impaired cell-mediated immune function.