This experiment examined the relationship between reinforcer magnitude and quantitative measures of performance on progressive-ratio schedules. Fifteen rats were trained under a progressive-ratio schedule in seven phases of the experiment in which the volume of a 0.6-M sucrose solution reinforcer was varied within the range 6-300 microl. Overall response rates in successive ratios conformed to a bitonic equation derived from Killeen's (1994) Mathematical Principles of Reinforcement. The "specific activation" parameter, a, which is presumed to reflect the incentive value of the reinforcer, was a monotonically increasing function of reinforcer volume; the "response time" parameter, delta, which defines the minimum response time, increased as a function of reinforcer volume; the "currency" parameter, beta, which is presumed to reflect the coupling of responses to the reinforcer, declined as a function of volume. Running response rate (response rate calculated after exclusion of the postreinforcement pause) decayed monotonically as a function of ratio size; the index of curvature of this function increased as a function of reinforcer volume. Postreinforcement pause increased as a function of ratio size. Estimates of a derived from overall response rates and postreinforcement pauses showed a modest positive correlation across conditions and between animals. Implications of the results for the quantification of reinforcer value and for the use of progressive-ratio schedules in behavioral neuroscience are discussed.
The results extend previous findings with clozapine to other atypical antipsychotics and suggest that enhancement of the efficacy of reinforcers may be a common feature of atypical antipsychotics not shared by conventional antipsychotics.
The results confirm previous findings on the effects of clozapine and 8-OH-DPAT on progressive ratio schedule performance. 8-OH-DPAT's effects are probably mediated by post-synaptic 5-HT(1A) receptors; clozapine's effects are mediated by a different mechanism, which does not appear to involve 5-HT(1A) receptors and which does not depend upon an intact 5-HTergic pathway.
The present results provide no evidence for the involvement of 5-HT(3) receptors in temporal differentiation and indicate that the effect of quipazine on performance was mediated by 5-HT(2A) receptor stimulation. The results are consistent with previous evidence for the involvement of 5-HT(2A) receptors in interval timing behaviour.
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