Rotation in response to selective dopamine receptor agonists in rats with electrolytic substantia nigra lesions

Differential effects of unilateral striatal and nigrostriatal lesions on grip strength, skilled paw reaching and drug-induced rotation in the rat

Lateralised motor deficits associated with basal ganglia dysfunction were compared in separate groups of rats receiving unilateral 6-hydroxydopamine-induced lesions of the dopaminergic nigrostriatal pathway, quinolinic acid-induced lesions of the striatum, or sham control injections. Amphetamine induced ipsilateral rotation in both lesion groups, whereas a low ('supersensitive') dose of apomorphine induced rotation only in the nigrostriatal lesion group. Both lesions induced impairments in skilled paw reaching with the contralateral paw in the 'staircase' test; by contrast the striatal lesions also induced a marked impairment with the ipsilateral paw, which was unaffected by the nigrostriatal lesion. A previously reported increase in grip strength with the contralateral paw after nigrostriatal lesion was replicated, whereas striatal lesions induced only minor bilateral deficits in this test. The results are discussed in the context of the utility, reliability and validity of alternative tests of motor deficit in animal models of Parkinson's and Huntington's diseases.

Turning behavior induced by injections of glutamate receptor antagonists into the substantia nigra of the rat

We have found recently that muscimol microinjections into the subthalamic nucleus produce contralateral turning activity [Murer and Pazo (1993) NeuroReport, 4:1219-1222]. To test the hypothesis that a reduced glutamate action on substantia nigra pars reticulata neurons mediates this turning response, we examined the effect of unilateral intranigral microinjections of the AMPA/kainate receptor antagonist 6,7-dinitro-quinoxaline-2,3-dione (DNQX) and the competitive N-methyl-D-aspartate (NMDA) receptor antagonist DL-2-amino-5-phosphonovaleric acid (AP-5). DNQX and AP-5 both produced a dose-dependent contralateral turning response, while vehicle administration did not induce turning activity. Application of glutamate receptor antagonists at adjacent regions of the mesencephalic tegmentum were also ineffective. Coadministration of NMDA or AMPA significantly reduced the turning response induced by AP-5 or DNQX, respectively. Lesions of the nigrostriatal pathway by 6-hydroxydopamine did not modify the response to DNQX or AP-5 administration into the nigra. However, their behavioral effects were significantly reduced by a lesion of the ipsilateral subthalamic nucleus. Our results show that the blockade of a tonic input acting on AMPA/kainate and NMDA receptors located at the substantia nigra produces contralateral turning behavior. The effect seems to involve pars reticulata cells since this area remains unchanged after destruction of dopaminergic neurons. The subthalamic nucleus seems to be the endogenous source of the agonist acting on the nigral glutamate receptors related to turning behavior.

MK-801 differentially affects dopamine D1 and D2 receptor agonist-induced behavioral tolerance and desensitization

In this study we explored the effects of repeated MK-801 (0.10 mg/kg) treatment on rotation in rats with unilateral forebrain dopamine depletions. Daily injections of MK-801 across a 13-day period produced mild ipsilateral rotation which did not change significantly across days compared to daily injections of vehicle. Rats given repeated cotreatment of MK-801 with the selective D1 receptor agonist, A-85653 (0.06 mg/kg), developed response sensitization rather than the behavioral tolerance that was seen in rats given repeated vehicle+A-85653 injections. However, MK-801+A-85653 treated rats did demonstrate behavioral tolerance after an acute vehicle+A-85653 challenge, and the behavioral subsensitivity of rats given repeated vehicle+A-85653 injections reverted to normal in response to an acute MK-801+A-85653 challenge. Thus, MK-801 blocked the expression but not the development of D1-agonist induced behavioral tolerance. MK-801 treatment also enhanced striatal c-fos expression produced by A-85653 but only if MK-801 were given in combination with A-85653 2 h prior to sacrifice; prior daily treatment with MK-801 had no carry-over effect. In contrast to its effects on D1 agonist induced rotation, MK-801 cotreatment inhibited the robust contralateral rotation produced by repeated treatment with the D2/D3 agonist, quinpirole (0.15 mg/kg), and blocked both the development and expression of behavioral supersensitivity compared to rats treated with quinpirole alone. These results demonstrate differential effects of repeated MK-801 treatment on the development and expression of D1 and D2/D3 agonist induced response tolerance and sensitization, respectively.

Turning behavior in rats with unilateral lesions of the subthalamic nucleus: synergism between D1 and D2 receptors

Rats with unilateral kainic acid lesion of the subthalamic nucleus showed a dose dependent rotational response to the lesioned side (ipsilateral) after systemic administration of the non-selective dopaminergic agonist apomorphine. Both D2 and D1 selective antagonists ((-)sulpiride and SCH23390) inhibited the response to apomorphine in these rats. Selective D2 and D1 agonists (quinpirole and SKF38393) were unable to induce turning behavior. However, an ipsilateral circling response was obtained after the simultaneous application of both agonists. The interaction mechanism between dopaminergic receptor subtypes seems to be similar to that of other normosensitive models of turning previously studied (Barone et al., 1986; Robertson and Robertson, 1986; Arnt and Perregard, 1987; Asim et al., 1990; Pazo et al., 1993). It is proposed that the ipsilateral turning response to dopaminergic agonists in rats with subthalamic nucleus lesion results from an impaired behavioral expression of the action of dopaminergic agonists on one side, leading the rats to turn away from the intact hemisphere.

Amphetamine- and cocaine-induced fos in the rat striatum depends on D2 dopamine receptor activation

Amphetamine or cocaine injection causes expression of the immediate-early gene c-fos in the striatum. Previous studies have shown that dopamine D1 receptor activation is necessary for this effect, but have not established a consistent role for D2 receptors. We have investigated the involvement of D2 receptors in indirect dopamine agonist-induced striatal Fos-like immunoreactivity using the selective D2 antagonist eticlopride. Eticlopride treatment (0.5 mg/kg) caused Fos expression by itself, but also decreased Fos expression in the central striatum due to amphetamine (5.0 mg/kg) or cocaine (40 mg/kg) by 90% and 85%, respectively. In striatonigral neurons, identified by labeling with the retrograde tracer Fluorogold iontophoresed into the substantia nigra pars reticulata, the blockade of stimulant-induced Fos-like immunofluorescence by eticlopride was nearly complete, with decreases of 98% for amphetamine and 94% for cocaine. In striatonigral neurons, the D2 antagonist alone had minimal effect. We conclude that activation of both D1 and D2 receptor classes by dopamine agonists is necessary for induction of Fos in the striatonigral cells of normal rats. These results provide an important parallel to behavioral and electrophysiological work that also demonstrates D1/D2 interdependence in the control of normal basal ganglia functions.

D1 and D2 receptors and circling behavior in rats with unilateral lesion of the entopeduncular nucleus

The role of D1 and D2 striatal dopamine receptors on circling behavior was studied in a normosensitive model obtained by unilateral kainic acid lesion of the entopeduncular nucleus. In this model, the sensitivity of striatal dopamine receptors was preserved, because kainic acid destroyed the neurons of the entopeduncular nucleus and left undamage the fibers of passage and axon terminals. Systemic administration of SKF 38393 to these animals fails to induce circling activity. In contrast, administration of quinpirole elicited rotation toward the lesioned side, which was increased by concurrent injection of SKF 38393. This behavior was inhibited by pretreatment with either a specific D1 (SCH 23390) or D2 (-sulpiride) antagonist. The apomorphine also induced ipsilateral circling that was abolished by pretreatment with D1 or D2 antagonists. The above results suggest that coactivation of both D1 and D2 striatal dopamine receptors are necessary to induce rotation in this normosensitive model.