L. Stanford et A. Santi, THE DOPAMINE D2 AGONIST QUINPIROLE DISRUPTS ATTENTION TO TEMPORAL SIGNALS WITHOUT SELECTIVELY ALTERING THE SPEED OF THE INTERNAL CLOCK, Psychobiology, 26(3), 1998, pp. 258-266
Three groups of rats were trained to discriminate between 2 sec and 8
sec of darkness by responding to either the left or the right lever. F
ollowing acquisition of this temporal discrimination, psychophysical f
unctions were obtained by presenting unreinforced signals of intermedi
ate duration. Two groups of rats were trained with saline and subseque
ntly tested with the specific D2 dopamine agonist quinpirole (0.08 mg/
kg). One of these groups was naive to the drug prior to testing (DN),
whereas the other had exposure to the drug but not during training ses
sions (DE). A third group (DT) was trained under quinpirole and tested
with saline. The temporal discrimination was acquired rapidly and equ
ivalently in Groups DN and DE. However, rats in Group DT were severely
impaired in acquiring the discrimination. During psychophysical testi
ng, quinpirole disrupted the accuracy of temporal discrimination equiv
alently in Groups DN and DE. Both the Weber fraction (WF),and the diff
erence limen (DL) increased significantly in Groups DN and DE; however
, the point of subjective equality (PSE) was not affected. In Group DT
, the shift to saline during psychophysical testing did not result in
any changes to the PSE, DL, or WF. These findings are not consistent w
ith the hypothesis that the speed of the internal clock is selectively
affected by D2 dopaminergic manipulations. Prior exposure to the drug
does not appear to be a critical variable in the failure to observe a
selective adjustment of the internal clock. The D2 agonist quinpirole
appears to affect the accuracy of temporal discriminations generally,
without: altering the speed of the internal clock.