Effect of destruction of the 5-hydroxytryptaminergic pathways on temporal memory: quantitative analysis with a delayed interval bisection task

5-Hydroxytryptamine and interval timing behaviour

Interval timing behaviour is revealed by prospective, immediate and retrospective timing schedules. Prospective timing tasks are used to study intertemporal choice (choice between outcomes occurring after different delays), immediate timing tasks to study temporal differentiation (temporal regulation of the animal's behaviour) and retrospective timing tasks to study temporal discrimination (discrimination between the durations of external events). Central 5-hydroxytryptamine (5-HT) depletion promotes preference for small early reinforcers over large delayed reinforcers, possibly by facilitating the time-dependent degradation of reinforcer value. Central 5-HT depletion retards the learning of temporal differentiation, and increases the variability of timing in some immediate timing tasks; however, it does not impede (in some cases it facilitates) the acquisition of temporal discrimination. Attempts to ascribe all the effects of 5-HT depletion on timing to a single behavioural process have been unsuccessful, although disinhibition of switching between operant responses may account for some of the findings. Acute treatment with drugs affecting 5-HTergic mechanisms alters timing behaviour in qualitatively different ways in different timing schedules, casting doubt on the idea that the effects of these drugs are mediated by interaction with a unitary timing process. The receptors that mediate 5-HT's putative involvement in interval timing behaviour remain to be identified.

5-hydroxytryptamine and impulse control: prospects for a behavioural analysis

Impulsiveness is a significant clinical problem associated with a variety of psychiatric and neuropsychiatric disorders. Clinical and experimental studies have provided evidence that individuals displaying impulsive behaviour tend to show signs of deficient functioning of the ascending 5-hydroxytryptaminergic (5-HTergic) pathways of the brain. A persistent problem in investigations of the biological basis of impulsive behaviour has been the lack of a satisfactory definition of 'impulsiveness', as distinct from other behavioural features, such as aggression, which are often apparent in 'impulsive' individuals. Research in the experimental analysis of behaviour suggests that two important characteristics of 'impulsiveness' are (i) deficient tolerance of delay of gratification and (ii) inability to inhibit or delay voluntary behaviour; both of these characteristics are amenable to study in laboratory animals. We describe some delayed reinforcement and delayed response paradigms which purport to capture these behavioural characteristics, and review recent evidence that manipulation of 5-HTergic function alters behaviour in these paradigms. It is argued that the two characteristics of 'impulsiveness' are themselves the product of disturbance of more fundamental behavioural processes; the nature of these processes is considered.