Serotonergic system - Interactions with the circadian timing system.

Essential component of the circadian timing system, the suprachiasmatic nucleus (SCN) receives dense retinohypothalamic RHT, geniculohypothalamic tract GHT and serotonergic innervation arriving from the raphe nuclei. SCN has pacemaker cells that produce rhythmic expression of clock genes. This study investigates the levels of 5-HT in the raphe nuclei and SCN in free running rats and shows endogenous rhythms in the obscurus and linear raphe nuclei, which is regulated by the daily light: dark cycle rhythms. The comparative analysis of the intrinsic structure of the SCN of primates and rodents shows a different organizational pattern of serotonergic and GHT terminals and the RHT terminals, suggesting different actions of serotonin and neuropeptide Y in the control of circadian rhythmicity in primates. Moreover, the pattern of the clock genes SCN expression along the awaken period in the primates show that BMAL1 and Per1 RNAm peaks of expression occur around ZT2 and Per2 around ZT7. These data suggest that the neural organization of the circadian timing system in the studied primate differ from those of the most commonly studied rodents. (AU)