Role of kappa opioid receptors during stress responsiveness in rats.

Effects of kappa opioid agonist, ketocyclazocine (KCZ) and its antagonist, M(r) 2266, were evaluated on some stress responses in rats. KCZ (1 or 10 mg/kg, ip) dose-dependently attenuated cold restraint stress (CRS)-induced gastric ulcer formation. Similar gastric cytoprotection was also seen with KCZ (1 or 10 micrograms/rat, icv). Pretreatment of rats with M(r) 2266 (0.3 mg/kg, ip) clearly antagonized the ulceroprotective effects of both ip and icv KCZ. KCZ effects on the gastric mucosa during CRS were also reduced by naltrexone (5 mg/kg, ip) pretreatment. KCZ (1 or 10 mg/kg, ip) also attenuated the plasma corticosterone response to CRS and these effects were blocked by M(r) 2266 (0.3 mg/kg) pretreatment. These results indicate kappa opioid receptor involvement during stress reactions and also suggest possible opioidergic interactions during CRS.

Effects of acute or chronic opioid agonists and their modulation by diurnal rhythmicity and satiety states on food intake in rats.

The effects of acute or chronic treatment with mu and k opioid agonists were investigated on food intake during light (0-6 hr) and dark (6-24 hr) phases in free fed and fasted rats. In free fed rats, morphine (MOR, 5 mg/kg, ip), a mu-agonist, induced a hyperphagic response during both light and dark phases, whereas ketocyclazocine (KCZ, 1 mg/kg, ip), a k-agonist, enhanced food intake only during the light phase. Chronic MOR (x 7 days) produced a further enhancement of hyperphagia in the light phase and attenuated the dark phase response. Chronic KCZ, however, had opposite effects, i.e. tolerance to light phase hyperphagia and an enhancement in the dark phase response. In fasted rats, neither MOR nor KCZ appreciably enhanced food intake after acute administration but chronic treatment potentiated the acute opioid effects. These results are discussed in light of the role of diurnal rhythmicity, satiety states and receptor (mu and k) specificity/interactions in the opioidergic regulation of food intake.