Stitt Jt scite author profile

Prostaglandin E1 (PGE1) when micro-injected into the preoptic anterior hypothalamus (PO/AH) of conscious rabbits is a potent pyrogenic agent. We have investigated the action of PGE1 on the activity of single units of the PO/AH area using the microelectrophoretic technique. One hundred and thirty-eight PO/AH units were tested both for their response to changes in local PO/AH temperature and for their response to PGE1 application. Less than 9.0% of the total population of units tested showed any response to PGE1 application. When present, the response was invariably one of mild facilitation. No specific unit type (thermally sensitive or insensitive) appeared to be selectively affected by PGE1. Thus, the proportion of units affected by PGE1 was constant at 8-10% for warm-sensitive, cold-sensitive, or thermally insensitive units. There was no evidence to support an antagonistic role for PGE1 on the effects on norepinephrine on PO/AH units. On the basis of these results, we cannot predicate any simple neuronal basis for the action of PGE1 in producing fever in conscious rabbits. However, it is suggested that the action of PGE1 might be the modulation of presynaptic release of neurotransmitter onto the units of the PO/AH area.

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Enhancement of the febrile responses of rats to endogenous pyrogen occurs within the OVLT region

1989

Journal of Applied Physiology

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The febrile responses of male Sprague-Dawley rats to a semi-purified endogenous pyrogen (EP) derived from human monocytes are markedly enhanced 3 days after the animals are intravenously injected with a variety of immunoadjuvants. The present study was designed to investigate the site within the body at which these substances act to produce this febrile-enhancing phenomenon. Stainless steel microinjection cannula guide tubes were implanted within the region of the organum vasculosum lamina terminalis (OVLT) of the rats and control febrile dose-response curves to EP were established. Minute quantities of the immunoadjuvants zymosan, lipopolysaccharide endotoxin, and the synthetic adjuvant peptide, muramyl dipeptide, were microinjected into the OVLT region and 3 days later, the febrile responses of the animals were retested. In each case the febrile response elicited by a standard dose of EP was more than doubled, the slope of the fever dose-response curve was tripled, and the dose threshold was lowered by a factor of four to five. These responses are identical with those produced when much larger amounts of these immunoadjuvants are injected intravenously, and, thus, we conclude that the site of action of these substances in enhancing fever in response to EP resides in or near the OVLT region. It is proposed that EP stimulates a type of reticuloendothelial cell residing within the OVLT to release prostaglandin E, which in turn crosses the blood-brain barrier to effect the changes in the thermoregulatory neurons of the preoptic anterior hypothalamic area that result in fever.

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Plasma sequestration produced by acute changes in body temperature in turtles

Jt¹,

Semple²,

Sigsworth³

1971

American Journal of Physiology-Legacy Content

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Stitt Jt

PGE1 fever: its effect on thermoregulation at different low ambient temperatures

Microelectrophoresis of PGE1 onto single units in the rabbit hypothalamus

Enhancement of the febrile responses of rats to endogenous pyrogen occurs within the OVLT region

Plasma sequestration produced by acute changes in body temperature in turtles

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