A receptor subtype involved in neuropeptide-Y-induced food intake.

Neuropeptide Y (NPY) is a powerful stimulant of food intake and is proposed to activate a hypothalamic 'feeding' receptor distinct from previously cloned Y-type receptors. This receptor was first suggested to explain a feeding response to NPY and related peptides, including NPY2-36, that differed from their activities at the Y1 receptor. Here we report the expression cloning of a novel Y-type receptor from rat hypothalamus, which we name Y5. The complementary DNA encodes a 456-amino-acid protein with less than 35% overall identity to known Y-type receptors. The messenger RNA is found primarily in the central nervous system, including the paraventricular nucleus of the hypothalamus. The extent to which selected peptides can inhibit adenylate cyclase through the Y5 receptor and stimulate food intake in rats correspond well. Our data support the idea that the Y5 receptor is the postulated 'feeding' receptor, and may provide a new method for the study and treatment of obesity and eating disorders.

Flunixin meglumine: a non-narcotic analgesic.

The N-methyl-d-glucamine salt of flunixin (flunixin meglumine) is a potent non-narcotic analgesic agent after parenteral administration in mice, rats and monkeys. It is significantly more potent than pentazocine, meperidine and codeine in the rat yeast paw test after subcutaneous administration in saline. Activity on intramuscular administration is comparable to that after subcutaneous administration and is enhanced when dissolved in buffered saline as compared to nonbuffered saline. In addition, flunixin meglumine also had oral activity and differs from indomethacin in having more analgesic activity per unit of anti-inflammatory activity. In mice, flunixin meglumine is equipotent to pentazocine and more potent than meperidine and codeine in the abdominal constriction test. In primates, flunixin meglumine at 10 mg/kg i.m., produced a degree of analgesic efficacy comparable to that of a clinically effective dose of morphine (0.3 mg/kg). In contrast to codeine, tolerance to the analgesic action of flunixin meglumine was not observed. Furthermore, flunixin meglumine retained its activity in rats made tolerant to codeine. Unlike narcotics, the analgesic effect of flunixin meglumine is not antagonized by naloxone after acute administration in rats. These results indicate that flunixin meglumine is a parenterally and orally effective analgesic in animals and is unlikely to have narcotic or drug dependence liability.