Abstract
Interval timing is a complex cognitive process that involves the estimation of time within the seconds-to-minutes range. This temporal processing depends on cortico-striatal interactions, as well as an optimal dopaminergic function. On the other hand, the circadian system controls physiological and behavioral functions with periods close to 24 hr. We have previously reported that short-time perception in mice is influenced by the circadian pacemaker, with dopamine signaling as a link between both temporal systems. In this work we evaluated the involvement of melatonin in the circadian modulation of interval timing, as well as the interaction between this hormone and dopamine levels in the striatum. We report that melatonin-depleted rats, by pinealectomy, present an impairment in their ability to estimate a short (24 s) target duration in the peak-interval procedure. Moreover, melatonin administration in drinking water restores interval timing precision in pinealectomized rats. We also show that circadian desynchronization causes a transient impairment in the timing task. In addition, melatonin administration affects interval timing only when rats are trained and tested during the night. Furthermore, we report that melatonin depletion increases striatal dopamine availability, which is reverted by external melatonin administration. Taken together, our findings add further support to the notion that the circadian system modulates interval timing, probably by using melatonin as an output to regulate dopaminergic functions in brain areas that are important for interval timing mechanisms.
Highlights
Interval timing is a complex cognitive process that involves the estimation of time within the seconds-tominutes range
We recently reported that interval timing, a complex cognitive process, is modulated by the circadian system (Agostino, do Nascimento, Bussi, Eguia, & Golombek, 2011)
In order to elucidate the role of MT on interval timing, rats were MT-depleted through removal of the pineal gland
Summary
Interval timing is a complex cognitive process that involves the estimation of time within the seconds-tominutes range. Melatonin (MT) is released by the pineal gland under the influence of the circadian system Administration of this hormone, by subcutaneous injection, infusion or via drinking water, is able to synchronize locomotor activity rhythms under constant light or darkness conditions, and accelerates reentrainment to phase shifts in the light-dark schedule (Armstrong, Cassone, Chesworth, Redman, & Short, 1986; Redman, 1997). In both diurnal and nocturnal species, MT release is restricted to nighttime, reaching a peak in the circulating system around Zeitgeber time (ZT) 16-22 in rats (Buijs, van Eden, Goncharuk, & Kalsbeek, 2003). We propose that this hormone, as an output of the circadian system, is able to modulate temporal precision and dopamine levels in the striatum
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
