Recent data suggest that fever may be initiated by products of liver macrophages that activate subdiaphragmatic vagal afferents. In the brain, these inputs may be transmitted to fever-producing sites via noradrenergic pathways;prostaglandin E2 may be the ultimate pyrogenic mediator.
Fever is thought to be caused by endogenous pyrogenic cytokines, which are elaborated and released into the circulation by systemic mononuclear phagocytes that are activated by exogenous inflammatory agents and transported to the preoptic-anterior hypothalamic area (POA) of the brain, where they act. Prostaglandin (PG) E2 is thought to be an essential, proximal mediator in the POA, and induced by these cytokines. It seems unlikely, however, that these factors could directly account for early production of PGE2 following the intravenous administration of bacterial endotoxic lipopolysaccharides (LPS), because PGE2 is generated before the cytokines that induce it are detectable in the blood and the before cyclooxygenase-2, the synthase that they stimulate, is expressed. Hence other, more quickly evoked mediators are presumed to be involved in initiating the febrile response; moreover, their message may be conveyed to the brain by a neural rather than a humoral pathway. This article reviews current conceptions of pyrogen signalling from the periphery to the brain and presents new, developing hypotheses about the mechanism by which LPS initiates fever.
It is generally believed that fever is mediated by certain cytokines produced by immune cells activated by exogenous pyrogens, e.g., lipopolysaccharides (LPS), released into the circulation and transported to the brain There, the cytokines are thought to stimulate prostaglandin (PG) E2 production within the organum vasculosum laminae terminalis region. PGE2 then may act as a febrigenic mediator locally or in the surrounding preoptic area (POA). However, whereas the increases in preoptic PGE2 and body (core) temperature (Tc) following the intravenous (i.v.) administration of LPS correlate temporally, cytokine levels in blood lag both these increases. From recent data in the literature, we have conjectured that a possible, alternative communication pathway between the i.v. LPS-activated immune system and brain PGE2 may be provided by the vagi. To test this possibility, we measured the levels of PGE2 in the extracellular fluid of the POA (collected by microdialysis) of conscious, subdiaphragmatically vagotomized or sham-operated guinea pigs following LPS administration (2 micrograms/kg; i.v.); controls received pyrogen-free saline (PFS). The effluents from the microdialysis probes were collected over 30-min periods throughout the experiments and the samples analyzed by radioimmunoassay; Tc was monitored continuously using thermocouples inserted 5 cm into the colon. LPS induced a biphasic fall in Tc and failed to increase preoptic PGE2 levels in the vagotomized guinea pigs (n = 10), whereas in their sham-operated controls (n = 10) it induced increases in both preopitc PGE2 and Tc within 15 min after its injection; PFS (n = 13) had no effect on either variable. We postulate that peripheral immune cell-derived signals may be transmitted via the vagi to the medulla. From other data, we suggest further that they may be conveyed from here via the ventral noradrenergic bundle to the POA region, where the released norepinephrine induces the local synthesis of PGE2 and, hence, fever onset.
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