Prefrontal D1 dopamine signaling is required for temporal control

Abstract: Temporal control, or how organisms guide movements in time to achieve behavioral goals, depends on dopamine signaling. The medial prefrontal cortex controls many goal-directed behaviors and receives dopaminergic input primarily from the midbrain ventral tegmental area. However, this system has never been linked with temporal control. Here, we test the hypothesis that dopaminergic projections from the ventral tegmental area to the prefrontal cortex influence temporal control. Rodents were trained to perform a f… Show more

“…Previous accounts of interval timing proposed that the brain contains a neural timer that resets to zero by the occurrence of reinforcement (Gallistel and Gibbon, 2000;Gibbon, 1977) and that dopamine is critically involved in second-to-second estimation Buhusi and Meck, 2005;Coull et al, 2010;Coull et al, 2012;Matell and Meck, 2000;Meck et al, 2008;Narayanan et al, 2012;Wittmann, 2013). Consistent with this theory, we observed a decrease in subsecond dopamine concentrations throughout the interval of an FI task that resets after each reinforcement-evoked dopamine event.…”

“…To assess quantitatively the extent and direction of the cannabinoid-induced change in the temporal response pattern, we applied a previously characterized mathematical analysis known as the index of curvature (Fry et al, 1960;Narayanan et al, 2012). In the index of curvature analysis, a premature acceleration of responding will produce a negative index, while a slower acceleration of responding will produce a positive index.…”

“…Now dopaminergic modulation of the converging input into the accumbens is lost, and an unchecked high response pattern of reinforcement-directed behavior predominates. We would like to acknowledge that our speculative model only describes rapid dopamine concentration changes observed in the nucleus accumbens core, and it is likely that divergent patterns of dopamine concentration may be observed along different timescales in distinct neural substrates and that dopamine levels below our limit of detection may also have a role (Narayanan et al, 2012). According to our model, if dopamine concentrations were enhanced at interval onset, yet still sufficiently decreased at the interval terminus, competing forces over reinforcement-directed behavior would be minimized and a behavioral repertoire that is dominated by obtaining primary reinforcement through the interval would emerge.…”

“…Cannabinoids act on the brain's mesocorticolimbic dopamine system (Cheer et al, 2004), a neural pathway recently implicated in the temporal control of behavior (Narayanan et al, 2012). Such control can be assessed using fixed-interval (FI) schedules (Narayanan et al, 2012), which reinforce behavior on the basis of time (Dews, 1970).…”

“…Such control can be assessed using fixed-interval (FI) schedules (Narayanan et al, 2012), which reinforce behavior on the basis of time (Dews, 1970). FI procedures produce a characteristic pattern of behavior known as a scallop.…”

Cannabinoid Receptor Activation Shifts Temporally Engendered Patterns of Dopamine Release

“…Previous accounts of interval timing proposed that the brain contains a neural timer that resets to zero by the occurrence of reinforcement (Gallistel and Gibbon, 2000;Gibbon, 1977) and that dopamine is critically involved in second-to-second estimation Buhusi and Meck, 2005;Coull et al, 2010;Coull et al, 2012;Matell and Meck, 2000;Meck et al, 2008;Narayanan et al, 2012;Wittmann, 2013). Consistent with this theory, we observed a decrease in subsecond dopamine concentrations throughout the interval of an FI task that resets after each reinforcement-evoked dopamine event.…”

“…To assess quantitatively the extent and direction of the cannabinoid-induced change in the temporal response pattern, we applied a previously characterized mathematical analysis known as the index of curvature (Fry et al, 1960;Narayanan et al, 2012). In the index of curvature analysis, a premature acceleration of responding will produce a negative index, while a slower acceleration of responding will produce a positive index.…”

“…Now dopaminergic modulation of the converging input into the accumbens is lost, and an unchecked high response pattern of reinforcement-directed behavior predominates. We would like to acknowledge that our speculative model only describes rapid dopamine concentration changes observed in the nucleus accumbens core, and it is likely that divergent patterns of dopamine concentration may be observed along different timescales in distinct neural substrates and that dopamine levels below our limit of detection may also have a role (Narayanan et al, 2012). According to our model, if dopamine concentrations were enhanced at interval onset, yet still sufficiently decreased at the interval terminus, competing forces over reinforcement-directed behavior would be minimized and a behavioral repertoire that is dominated by obtaining primary reinforcement through the interval would emerge.…”

“…Cannabinoids act on the brain's mesocorticolimbic dopamine system (Cheer et al, 2004), a neural pathway recently implicated in the temporal control of behavior (Narayanan et al, 2012). Such control can be assessed using fixed-interval (FI) schedules (Narayanan et al, 2012), which reinforce behavior on the basis of time (Dews, 1970).…”

“…Such control can be assessed using fixed-interval (FI) schedules (Narayanan et al, 2012), which reinforce behavior on the basis of time (Dews, 1970). FI procedures produce a characteristic pattern of behavior known as a scallop.…”

Cannabinoid Receptor Activation Shifts Temporally Engendered Patterns of Dopamine Release

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