Journal of Applied Physiology, Vol 68, Issue 6 2618-2622, Copyright © 1990 by American Physiological Society
Effects of cold and capsaicin desensitization on prostaglandin E hypothermia in rats
S. G. Shimada, J. T. Stitt and P. Angelogianni
John B. Pierce Foundation Laboratory, New Haven, Connecticut.
Intraperitoneal injection of prostaglandin E1 (PGE) produces a transient
hypothermia in rats that lasts 1-2 h. Rats exposed to an ambient
temperature (Ta) of 26 degrees C displayed a decrease in rectal temperature
(Tre) of 0.95 +/- 0.12 degrees C (SE) after injection with PGE (100
micrograms/kg ip). Hypothermia was produced mainly by heat losses, as
indicated by increases in tail blood flow. At Ta of 4 degrees C, PGE
produced a comparable fall in Tre of 1.00 +/- 0.14 degrees C. However, in
the cold the hypothermia was caused solely by decreases in heat production.
These results indicate that the PGE-induced hypothermia is not the result
of a peripheral vasodilation induced by the direct action of PGE on the
tail vascular smooth muscle but is a central nervous system-mediated
response of the thermoregulatory system induced by PGE within the
peritoneal cavity. Capsaicin injected subcutaneously induces a transient
hypothermia in rats because of stimulation of the warm receptors. If
administered peripherally in sufficient amounts, it is reputed to impair
peripheral warm receptors so that they become desensitized to the
hypothermic effects of capsaicin. We measured PGE-induced hypothermias in
rats both before and after capsaicin desensitization at Ta of 26 degrees C.
Before desensitization the hypothermia was -1.14 +/- 0.12 degrees C,
whereas after capsaicin treatment the PGE-induced hypothermia was -0.34 +/-
0.17 degrees C. The biological effects of capsaicin are diverse; however,
based on current thinking about the thermoregulatory effects of capsaicin
desensitization, our results indicate that peripheral warm receptor
pathways are in some manner implicated in the hypothermia induced by
intraperitoneal PGE.
