Open Access
Possible Role of Vasopressin in the Thermoregulatory Response to Chlorpyrifos in the Rat
Author(s) -
Yang YongLu,
Gordon Christopher J.
Publication year - 2002
Publication title -
pharmacology & toxicology
Language(s) - English
Resource type - Journals
eISSN - 1600-0773
pISSN - 0901-9928
DOI - 10.1034/j.1600-0773.2002.900604.x
Subject(s) - vasopressin , endocrinology , antagonist , thermoregulation , medicine , chlorpyrifos , arginine , oxotremorine , organophosphate , chemistry , vasopressin antagonists , pharmacology , agonist , biology , biochemistry , receptor , amino acid , pesticide , agronomy
Abstract: Arginine vasopressin is a naturally occurring antipyretic which is released into the CNS to prevent excessive elevations in body temperature during fever. Circulating levels of arginine vasopressin may also have a role in the tonic control of body temperature. We have found that the organophosphate insecticide chlorpyrifos will raise blood pressure and lower body temperature in the rat. Because arginine vasopressin is a potent hypertensive agent and is capable of lowering core temperature, we suspected that arginine vasopressin may be involved in the thermoregulatory response to chlorpyrifos. To this end, core temperature and motor activity of male and female Sprague‐Dawely rats were monitored before and after treatment with the corn oil vehicle or chlorpyrifos (15 mg/kg in females; 30 mg/kg in males; oral) concomitant with injection of a saline vehicle or a type 1 arginine vasopressin antagonist (20 μg/kg in females; 30 μg/kg in males; intraperitoneally). Rats dosed with chlorpyrifos and saline underwent a 2–3 ° reduction in core temperature >50% decrease in motor activity. The V1 antagonist attenuated the hypothermic effect of chlorpyrifos in both sexes. Chlorpyrifos‐induced inhibition in motor activity was unaffected by the V1 antagonist. In another experiment, the V1 antagonist (30 μg/kg) was co‐administered with saline or 0.2 mg/kg oxotremorine, a muscarinic agonist that stimulates a heat loss response and partially mimics the effects of chlorpyrifos. The V1 antagonist attenuated the hypothermic effect of oxotremorine in both sexes. Plasma arginine vasopressin levels were determined in male rats 3 hr after corn oil or 30 mg/kg chlorpyrifos. There was no significant effect of chlorpyrifos on plasma levels of arginine vasopressin. That the V1 antagonist blocked the hypothermic effect of chlorpyrifos suggests that the thermoregulatory response to chlorpyrifos is mediated by central and/or systemic vasopressin release. The lack of a significant increase in plasma vasopressin after chlorpyrifos suggests that localized release of vasopressin may be involved in the thermoregulatory response to chlorpyrifos.