Pyrogens enhance beta-endorphin release in hypothalamus and trigger fever that can be attenuated by buprenorphine.

At first, we investigated whether both beta-endorphin release level in the hypothalamus and body temperature can be altered after intracerebroventricular (i.c.v.) injection of either lipopolysaccharide (LPS), interleukin-1beta (IL-1beta), or prostaglandin E(2) (PGE(2)) in rats. It was found that in the rat, i.c.v. administration of either LPS (0.5 microg in 10 microl), IL-1beta (10 ng in 10 microl), or PGE(2) (200 ng in 10 microl), in addition to producing fever, upregulated the immunoreactivity of beta-endorphin in the preoptic anterior hypothalamus of rat brain. Secondarily, we assessed whether the fever induced by either LPS, IL-1beta, or PGE(2) can be altered by pretreatment with buprenorphine (an opioid receptor antagonist). The results revealed that i.c.v. administration of buprenorphine (1 - 10 microg in 10 microl) alone had an insignificant effect on the body temperature. However, the fever induced by i.c.v. injection of either LPS, IL-1beta, or PGE(2) was significantly attenuated by pretreatment with i.c.v. injection of buprenorphine 1 h before the pyrogen injection in rats. The results suggest that pyrogens enhance beta-endorphin release in the hypothalamus and trigger fever which can be attenuated by buprenorphine, an opioid receptor antagonist.

A novel inhibitor of bacterial endotoxin derived from cinnamon bark.

A substance that inhibits the activity of bacterial endotoxin (LPS) was found in cinnamon bark. The inhibitor, extracted from dry cinnamon bark with 67% ethanol/water, was purified by using Limulus gelation activity as an indicator of endotoxin activity. The inhibitor suppressed the activity of the LPS when it was mixed with the inhibitor prior to the assay. The reduction of the LPS activity depended on the concentration of both the inhibitor and LPS when mixed, and also on the incubation time. The inhibitor suppressed the activity of all LPS and lipid A preparations tested regardless of the origin of the bacteria. The inhibitor alone did not affect the Limulus system. These results indicate that the inhibition was caused by direct interaction of the inhibitor with the LPS molecule. Furthermore the inhibitor abrogated the pyrogenicity of the LPS. Although it is uncertain whether the inhibitor actually plays a role in the defense mechanism in cinnamon bark, this is the first report that an inhibitor of bacterial endotoxin exists in a plant.

Effects of atropine, injected into a lateral cerebral ventricle of the rabbit, on fevers due to intravenous leucocyte pyrogen and hypothalamic and intraventricular injections of prostaglandin E1.

1. Cholinergic synapses in the hypothalamus may transmit information in those thermoregulatory pathways which function to raise body temperature. The effect of atropine, administered intracranially, on the febrile response to intravenous leucocyte pyrogen or intracranial prostaglandin E1 was therefore examined in conscious rabbits. 2. In rabbits exposed to a thermoneutral environment, micro-injections of PGE1, into the anterior hypothalamus, intraventricular injections of PGE1, and intravenous injection so leucocyte pyrogen all caused fever accompanied by vasoconstriction in the ears and reduced respiratory rate. Intraventricular injection of 200 mug atropine during such fevers attenuated their development. This was due to the activation of heat loss mechanisms through vasodilatation in the ears and an increase in the frequency of respiration. This suggests a similarity in the pattern of neuronal activity evoked by PGE1 and leucocyte pyrogen, at least at the site(s) where atropine directly or indirectly exerted its effect and in the efferent pathways from this site. 3. In rabbits exposed to a cold environment, intraventricular injection of PGE1 caused fever through the activation of shivering accompanied by increased O2 consumption. Intraventricular injection of atropine during the development of fever caused an inhibition of shivering accompanied by increased O2 consumption. Intraventricular injection of atropine during the development of fever caused an inhibition of shievering and a decrease in O2 consumption so that temperature ceased to rise and returned to normal. 4. During fever, reversal by atropine of the increased heat conservation of rabbits in a neutral environment, and of their increased heat production in a cold environment adds further support to the concept that cholinergic synapses provide an important link in central temperature-rasising pathways.

Leukocytic pyrogen and sodium acetylsalicylate on hypothalamic neurons in the cat.

Leukocytic pyrogen and sodium acetylsalicyclate (NaASA) were microinjected into the preoptic/anterior hypothalamic (PO/AH) area of cats to examine the direct effects of these agents on identified thermoregulatory neurons. The pyrogen and NaASA were administered under thermoneutral conditions to preparations that displayed peripheral or peripheral and central thermoreceptor input. The majority of neurons studied with proximate injection of pyrogen responded in a manner consistent with the set-point hypothesis; i.e., units responding to heating with increased activity were depressed and those showing a decreased discharge with the heat test were excited by the pyretic agent. Injection of NaASA without pyrogen pretreatment caused no significant modification of thermoregulatory neuron discharge in most cases. However, when NaASA was administered after pyrogen, it uniformly antagonized the pyretic effect causing a return of the discharge to the control rate. It may be concluded that pyrogen and NaASA act directly in the PO/AH area to produce fever and antipyresis, respectively, by appropriately offsetting the activity of thermoregulatory neurons.