Although a number of studies indicate that the pyrogenic activity of lipopolysaccharide (LPS) and/or interleukin (IL)-1 is mediated via induction of IL-6, this has been questioned by recent evidence demonstrating a dissociation between fever and circulating IL-6. The present study reexamines this relationship by use of human recombinant interleukin-1 receptor antagonist (IL-1ra). Injection of LPS (100 micrograms/kg ip) into rats induced fever (2.0 degrees C) that was significantly inhibited (P < 0.05) when IL-1ra (16 mg/kg ip) was given 1 and 2 h after LPS. The rise in plasma IL-6 preceded the febrile response by 1-1.5 h and, although the concentrations of bioactive IL-6 in plasma and cerebrospinal fluid (CSF) were not reduced at 4 h, at 2 h plasma and CSF IL-6 bioactivity was inhibited by 80 and 70%, respectively, after a single injection of IL-1ra (16 mg/kg ip). Intracerebroventricular injection of IL-1ra (200 micrograms/rat) inhibited LPS fever but did not affect the plasma IL-6 bioactivity measured 2 or 4 h after intraperitoneal LPS. These data show that peripheral IL-1 plays a part in the induction of both fever and the rise in plasma IL-6 that precedes it, and that IL-1 within the brain is also important in the induction of fever by LPS.
We investigated the role and interaction between tumor necrosis factor (TNF)-alpha, interleukin (IL)-1, and IL-6 in the development of fever and their involvement in brain and systemic pathways in response to localized tissue inflammation caused by injection of turpentine (TPS) in the rat. Intramuscular injection of 10 microl TPS caused significant increases in body temperature, of up to 2 degrees C, compared with saline-treated animals. Fevers were maximal 7-8 h after injection and were preceded by significant increases in plasma bioactive IL-6. No changes in circulating bioactive IL-1 or TNF-alpha were detected. Systemic injection of IL-1 receptor antagonist (IL-1ra, 2 mg/kg i.p.) or anti-TNF-alpha antiserum (0.4 ml i.v.) almost completely abolished the febrile responses to TPS over 8 h and markedly inhibited the rise in plasma IL-6 bioactivity measured 6 h after TPS. To test the involvement of brain cytokines, anti-TNF-alpha antiserum and IL-1ra were injected intracerebroventricularly. Injections of anti-TNF-alpha antiserum (3 microl/rat i.c.v.) or IL-1ra (400 microg/kg i.c.v.) significantly (P < 0.01 and P < 0.05, respectively) inhibited fever induced by TPS. These data suggest that both localized peripheral and brain IL-1 and TNF-alpha are involved directly in the pyrogenic response to inflammation. The results indicate that, in the periphery, IL-1 and TNF-alpha cause increased production of IL-6, the most likely candidate as a circulating endogenous pyrogen.
The involvement of endogenous tumor necrosis factor-alpha (TNF-alpha) in the pyrogenic [i.e., rise in colonic temperature (Tc)] and thermogenic [increase in oxygen consumption (VO2)] responses to inflammation was investigated in rats subjected to an intramuscular injection of turpentine. Turpentine administration caused a rise in Tc and VO2 within 2 h (0.9 +/- 0.1 degrees C, 27 +/- 2%, respectively). Eighteen to twenty hours after turpentine, the magnitude of these responses had increased (2.3 degrees C fever and a 28% increase in metabolic rate compared with control animals) and was associated with marked inflammation in the injected limb. A rapid (by 4 h) and sustained rise in the plasma concentration of the endogenous pyrogen IL-6, but not TNF-alpha, was also observed. Intravenous pretreatment with a TNF-alpha antiserum attenuated the rise in Tc observed 2, 8, and 18 h after turpentine injection and almost abolished the hypermetabolic response observed at 18 h. In addition, the TNF-alpha antiserum inhibited the peak rise (8 h) in plasma IL-6 by 76%. These findings indicate that endogenous TNF-alpha is involved in fever and hypermetabolism during inflammation and that it may exert these effects by inducing the release of IL-6 into circulation.
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