The chronobiotic properties of melatonin are well documented. For example, following an 8-h phase advance of the light-dark cycle daily injections of melatonin administered at the pre-shift dark onset alter the direction of re-entrainment of rat activity rhythms. Using this 8-h phase advance paradigm, the effects of the melatonin agonist S-20098 (1 mg/kg and 3 mg/kg) on the rat circadian system were compared with those of melatonin. S-20098 altered the direction of re-entrainment in the same manner as melatonin. A study using lower doses of S-20098 showed that the effect on direction of re-entrainment was dose-dependent, with 100% of rats responding at a dose of 100 micrograms/kg. S-20098 may, therefore, have therapeutic potential as a chronobiotic in the treatment of circadian disorders in humans.
We have isolated a novel variant of the Mel 1a melatonin receptor from an ovine PT cDNA library. Relative to the reported sequence for the Mel 1a melatonin receptor there are 8 changes in the DNA sequence. Only 3 of these result in amino acid substitutions, one in extracellular loop 3 and two in the carboxy-terminal tail. We have designated the novel variant of the sheep Mel 1a receptor Mel 1a(beta), and correspondingly the previously reported variant Mel 1a(alpha). As minor changes in the primary amino acid sequence of G-protein-coupled receptors can influence their functional characteristics we have accordingly characterized this novel variant of the Mel 1a melatonin receptor. This melatonin receptor displays high affinity binding and inhibits the cAMP second messenger pathway in transfected L-cells demonstrating that this receptor is fully functional. PCR analysis shows Mel 1a(beta) is present in several breeds of sheep and suggests that the Mel 1a(beta) receptor was established early in the evolution of the sheep species.
Melatonin is synthesized during the night by the pineal gland. Recently, melatonin binding sites have been identified in the gut. Despite few studies, the physiological role of melatonin in gut function remains unclear. The objective of the present study was to investigate the effects of melatonin in the regulation of intestinal motility by using the melatonin receptor antagonist S 22153 in rats. Twenty-four male Wistar rats (400 +/- 25 g) were equipped with intraparietal electrodes along the small intestine. Rats were subjected to a 12:12 hr light:dark schedule. During the dark phase, intestinal migrating motor complexes (MMCs) frequency increased (P < 0.05) by 20% in the duodenum and in the jejunum compared with daylight. This effect is due to a significant reduction in the irregular spiking activity (ISA) of MMCs. Concurrently, at night, the duration of the postprandial motor response is reduced by 30% in the duodenum and 50% in the jejunum and ileum. The administration of S 22153 (2 mg/kg sc) at night suppressed these nocturnal variations and restored the daylight values. In contrast, S 22153 was ineffective during daylight whatever the digestive state. Administration of melatonin (1 mg/kg iv) during the preprandial state, 3 hr after light onset, decreased (-80%) the duration of the ISA of MMCs at the three intestinal levels. During the satiety phase, melatonin administered 10 min before or 15 min after food onset induced the appearance of a transitory preprandial-like motor profile in the entire small intestine. In contrast, when administered at the end of the meal it was ineffective. Preprandial and postprandial melatonin effects were prevented by S 22153 pretreatment. In conclusion, these findings reveal, first, that endogenous melatonin is physiologically involved in the pre- and postprandial changes of intestinal motility at night. Second, exogenous melatonin produces pharmacological effects on pre- and postprandial intestinal motility. In both cases, the action of melatonin corresponds to an inhibition of ISA and a reinforcement of the cyclic MMC pattern.
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