Valencia-torres, Lourdes , OLARTE SÁNCHEZ, CRISTIAN MANUEL, Body, Sephanie , Cheung, Tim , Fone, Kevin , Bradshaw, Christopher , Szabadi, Elemer
Si
Behav Brain Res
Article
Científica
3.327
1.913
01/01/2012
000309801400022
It has been proposed that cortico-striato-thalamo-cortical circuits that incorporate the prefrontal cortex and corpus striatum regulate interval timing behaviour. In the present experiment regional Fos expression was compared between rats trained under an immediate timing schedule, the free-operant psychophysical procedure (FOPP), which entails temporally regulated switching between two operanda, and a yoked variable-interval (VI) schedule matched to the timing task for food deprivation level, reinforcement rate and overall response rate. The density of Fos-positive neurones (counts mm(-2)) in the orbital prefrontal cortex (OPFC) and the shell of the nucleus accumbens (AcbS) was greater in rats exposed to the FOPP than in rats exposed to the VI schedule, suggesting a greater activation of these areas during the performance of the former task. The enhancement of Fos expression in the OPFC is consistent with previous findings with both immediate and retrospective timing schedules. Enhanced Fos expression in the AcbS was previously found in retrospective timing schedules based on conditional discrimination tasks, but not in a single-operandum immediate timing schedule, the fixed-interval peak procedure. It is suggested that the ventral striatum may be engaged during performance on timing schedules that entail operant choice, irrespective of whether they belong to the immediate or retrospective categories. (C) 2012 Elsevier B.V. All rights reserved.
Orbital prefrontal cortex; Nucleus accumbens; Ventral striatum; Fos expression; Interval timing behaviour; Temporal differentiation; Free-operant psychophysical procedure; Variable-interval schedule; Rat