Fever response to intravenous prostaglandin E2 is mediated by the brain but does not require afferent vagal signaling

Fever response to intravenous prostaglandin E2 is mediated by the brain but does not require afferent vagal signaling

PGE2 produced in the periphery triggers the early phase of the febrile response to infection and may contribute to later phases. It can be hypothesized that peripherally synthesized PGE2 transmits febrigenic signals to the brain via vagal afferent nerves. Before testing this hypothesis, we investiga...

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Bibliographic Details
Published in:American journal of physiology. Regulatory, integrative and comparative physiology Vol. 294; no. 4; p. R1294
Main Authors: Ootsuka, Youichirou, Blessing, William W, Steiner, Alexandre A, Romanovsky, Andrej A
Format: Journal Article
Language:English
Published: United States 01-04-2008
Subjects:
Adipose Tissue, Brown - metabolism
Adipose Tissue, Brown - physiopathology
Animals
Body Temperature
Brain - drug effects
Brain - metabolism
Brain - physiopathology
Carbon Dioxide - metabolism
Dinoprostone - administration & dosage
Dinoprostone - metabolism
Disease Models, Animal
Fever - chemically induced
Fever - metabolism
Fever - physiopathology
Infusions, Intravenous
Male
Muscimol - administration & dosage
Neurons, Afferent - metabolism
Oxygen Consumption
Raphe Nuclei - metabolism
Raphe Nuclei - physiopathology
Rats
Rats, Sprague-Dawley
Signal Transduction - drug effects
Skin - blood supply
Sympathetic Nervous System - metabolism
Sympathetic Nervous System - physiopathology
Thermogenesis - drug effects
Time Factors
Vagotomy
Vagus Nerve - drug effects
Vagus Nerve - metabolism
Vagus Nerve - physiopathology
Vagus Nerve - surgery
Vasoconstriction
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Summary:PGE2 produced in the periphery triggers the early phase of the febrile response to infection and may contribute to later phases. It can be hypothesized that peripherally synthesized PGE2 transmits febrigenic signals to the brain via vagal afferent nerves. Before testing this hypothesis, we investigated whether the febrigenic effect of intravenously administered PGE2 is mediated by the brain and is not the result of a direct action of PGE2 on thermoeffectors. In anesthetized rats, intravenously injected PGE2 (100 microg/kg) caused an increase in sympathetic discharge to interscapular brown adipose tissue (iBAT), as well as increases in iBAT thermogenesis, end-expired CO2, and colonic temperature (Tc). All these effects were prevented by inhibition of neuronal function in the raphe region of the medulla oblongata using an intra-raphe microinjection of muscimol. We then asked whether the brain-mediated PGE2 fever requires vagal signaling and answered this question by conducting two independent studies in rats. In a study in anesthetized rats, acute bilateral cervical vagotomy did not affect the effects of intravenously injected PGE2 (100 microg/kg) on iBAT sympathetic discharge and Tc. In a study in conscious rats, administration of PGE2 (280 microg/kg) via an indwelling jugular catheter caused tail skin vasoconstriction, tended to increase oxygen consumption, and increased Tc; none of these responses was affected by total truncal subdiaphragmatic vagotomy performed 2 wk before the experiment. We conclude that the febrile response to circulating PGE2 is mediated by the brain, but that it does not require vagal afferent signaling.
ISSN:0363-6119
DOI:10.1152/ajpregu.00709.2007