Effects of the potential neuroleptic peptide des-tyrosine1-γ-endorphin and haloperidol on apomorphine-induced behavioural syndromes in rats and mice

The effects of haloperidol and Des-Tyr¹-γ-endorphin (DTγE) were studied on climbing induced in mice by high doses of apomorphine and on the yawning syndrome induced in rats by low doses of apomorphine. Haloperidol in a dose of 0.0046 mg/kg s.c. potentiated climbing whereas at higher doses climbing was inhibited (ED₅₀=0.03 mg/kg). DTγE had no effect on climbing under normal conditions in doses up to 2 mg/kg s.c.. After three days of handling and saline pre-injections DTγE potentiated climbing in doses from 0.1 to 1 mg/kg.Haloperidol inhibited yawning induced by low doses of apomorphine (ED₅₀=0.01 mg/kg). DTγE, on the other hand, potentiated yawning induced by low apomorphine at doses of 0.02 and 0.04 mg/kg s.c.. From the point of view that low doses of apomorphine predominantly activate presynaptic dopamine autoreceptors while higher doses predominantly activate postsynaptic dopamine receptors the following tentative conclusions are drawn. 1) Haloperidol blocks presynaptic dopamine autoreceptors at low doses and postsynaptic dopamine receptors at higher doses. 2) DTγE sensitizes presynaptic dopamine autoreceptors at low doses, thereby strengthening the local feedback mechanism at the dopaminergic nerve ending, and sensitizes postsynaptic dopamine receptors at higher doses.     

Reverse tolerance to amphetamine evokes reverse tolerance to 5-hydroxytryptophan

Repeated intermittent administration of amphetamine in mice caused reverse tolerance to 5-hydroxy-L-tryptophan (5-HTP)-induced head twitch, as well as to amphetamine-induced stereotypy. The repeated administration of 5-HTP alone also resulted in reverse tolerance in the head-twitch test. Daily pretreatment with haloperidol prior to amphetamine administration blocked the development of both reverse tolerance to amphetamine and to 5-HTP, whereas daily pretreatment with cyproheptadine prior to amphetamine blocked only the reverse tolerance to 5-HTP. On the other hand, 5-HTP-induced reverse tolerance was blocked by daily pretreatment with cyproheptadine, but not with haloperidol. There appears to be no difference in the persistence of the reverse tolerance to 5-HTP, whether induced by amphetamine or by 5-HTP; in both instances, the persistence does not correlate with the persistence of reverse tolerance to amphetamine. The data suggest that the reverse tolerance to amphetamine and the associated reverse tolerance to 5-HTP are independent events, both of which are mediated by dopaminergic mechanisms.     

Circling of mice bearing unilateral striatal lesions: development of increased response to D-amphetamine

Mice lesioned in one side of the striatum with 6-hydroxydopamine respond to d-amphetamine by circling ipsiversively. This report communicates the finding that upon repeated dosing with 4 mg/kg s.c. at weekly intervals the mice respond more and more strongly. Conditioning appears to contribute little to this phenomenon.     

Effects of short- and long-acting dopamine agonists on sensitized dopaminergic neurotransmission in rats with unilateral 6-OHDA lesions

The effects of short and long-acting dopamine agonists on sensitized dopaminergic transmission in an animal model of Parkinson's disease were investigated. Rats with 6-hydroxydopamine (6-OHDA) lesions of the left nigrostriatal dopaminergic pathway were pre-exposed i.p. to 50 mg/kg methyl levodopa for 10 days. After a 7-day withdrawal period, these animals were treated with saline i.p., 0.05 mg/kg apomorphine s.c., or 0.5 mg/kg cabergoline i.p., once daily for 7 days. On the 8th day, rats in each treatment group received a challenge dose of 0.05 mg/kg apomorphine or saline s.c. The temporal changes in the number of rotations away from the 6-OHDA lesion side were evaluated after the challenge. The apomorphine challenge increased the number of rotations more markedly in the apomorphine pretreated rats than in the other pretreatment groups. In cabergoline pretreated rats, the number of rotations was significantly lower than that of saline-pretreated animals. Pretreatment with saline did not alter the apomorphine sensitivity of rotational behavior. These findings suggest that the repeated administration of long-acting dopamine agonists may reduce sensitized dopaminergic transmission in dopamine-depleted rats, whereas short-acting ones may further enhance sensitization of the transmission process.     

Enhancement of reserpine-elicited dopaminergic supersensitivity by repeated treatment with apomorphine and alpha-methyl-p-tyrosine.

Pretreatment of rats with reserpine 5 mg/Kg/day for 2 days elicits an enhanced stereotyped response following injection of apomorphine or amphetamine which persists through the 17th day. Since apomorphine acts as a direct postsynaptic receptor agonist in dopaminergic neurons this effect may represent a postsynaptic supersensitivity. In an attempt to prevent the development of supersensitivity apomorphine was administered repeatedly during the reserpinization period. Contrary to expectations a further enhancement of supersensitivity was seen when animals were challenged days later with apomorphine. This may be the result of presynaptic dopamine-synthesis-inhibition following apomorphine. Apomorphine-induced enhancement of reserpine supersensitivity was not seen in animals challenged with amphetamine. Alpha-methyl-para-tyrosine, but not scopolamine, repeatedly administered during the reserpinization mimics the effect of apomorphine, supporting the concept that the potentiating effects of apomorphine are mediated presynaptically. Furthermore it is suggested that the direct presynaptic action of apomorphine, and not that mediated via cholinergic interneurons, is operant in the development of enhanced supersensitivity.     

Apomorphine Does Not Alter Amphetamine-Induced Dopamine Release Measured in Striatal Dialysates

Amphetamine facilitates the release of dopamine from nerve terminals, but the mechanisms underlying this effect have not been fully delineated. The present experiments were designed to test the extent to which amphetamine-induced dopamine release is dependent on impulse flow and autoreceptor function in dopaminergic neurons. Rats were pretreated with a low dose of apomorphine (0.05 mg/kg) to inhibit dopamine neuronal activity, and the striatal dopaminergic response to amphetamine (0.5 mg/kg) was assessed by in vivo dialysis in freely moving animals. Consistent with previous results, apomorphine alone substantially decreased, whereas amphetamine increased, striatal dialysate dopamine concentrations. However, whereas apomorphine pretreatment decreased the locomotor response to amphetamine, the amphetamine-induced increase in dialysate dopamine was unaffected. These results indicate that amphetamine-facilitated dopamine release is independent of neuronal firing and autoreceptor regulation, consistent with the putative accelerative exchange-diffusion mechanism of amphetamine-induced dopamine release. Other possible mechanisms underlying the inhibitory effects of apomorphine on amphetamine locomotor activation are discussed.     

delta 9-Tetrahydrocannabinol elicited ipsilateral circling behavior in rats with unilateral nigral lesion

The present study was designed to examine the influence of delta 9-tetrahydrocannabinol (THC) on the central dopaminergic system using circling behavior. THC 5 mg/kg i.p. produced ipsilateral circling in rats with unilateral nigral lesion by 6-hydroxy-dopamine. THC-induced ipsilateral circling was completely antagonized by 0.2 mg/kg of haloperidol. These findings suggest that THC may cause a presynaptic stimulation of nigrostriatal dopaminergic neurons.     

Effects of chronic administration of phencyclidine on stereotyped and ataxic behaviors in the rat

After chronic administration of Phencyclidine (PCP) to rats, a high test dose (15 mg/kg) of PCP produced increases in stereotypic and ataxic behaviors, and a lower test dose of PCP (5 mg/kg) produced decreases in these behaviors, compared to behavioral responses of control rats. Rearing behavior in rats chronically administered PCP was increased at all test doses of the drug. Rats treated chronically with 15 mg/kg PCP for 9 days showed marked increases in most of these behaviors, whereas, rats receiving 5 mg/kg PCP for 9 days showed less change in several stereotypic and ataxic behaviors. Rats receiving 10 mg/kg PCP on a once-weekly schedule also exhibited more rearing and ataxic behavioral responses after the 3rd or 4th weekly PCP injection. Chronic PCP rats did not show more stereotypic or ataxic behavior after administration of apomorphine or amphetamine than control rats. These results suggest that chronic administration of PCP augments sensitivity to the stereotypic inducing effects of high doses, and decreases sensitivity to low doses of PCP.     

Blockade of "reverse tolerance" to cocaine and amphetamine by MK-801

"Reverse tolerance" was produced in rats and mice by repeated exposure to either cocaine or amphetamine. The locomotorstimulant effect was studied in mice; stereotypy and convulsions in rats. MK-801, the NMDA antagonist, blocked the development of "reverse tolerance" to all three effects. In contrast, haloperidol selectively blocked "reverse tolerance" to cocaine-induced stereotypy but not to convulsions. The data suggest that the glutamate system participates in the mechanism of "reverse tolerance" to the dopaminergic effects of cocaine and amphetamine, as well as to the convulsant effect of cocaine.     

The role of nigral projections to the thalamus in drug-induced circling behaviour in the rat

Unilateral injection of 6-hydroxydopamine (6-OHDA) into the ascending nigrostriatal pathway caused contraversive circling to apomorphine and ipsiversive circling to amphetamine respectively. An electrolesion of the ventromedial thalamic nucleus on the same side as the 6-OHDA lesion reduced apomorphine-induced circling, but not that to amphetamine. An electrolesion of the ventromedial thalamic nucleus on the side opposite to the 6-OHDA lesion reduced amphetamine circling but not that to apomorphine. Bilateral electrolesions of the ventromedial thalamic nucleus reduced neither apomorphine- nor amphetamine-induced circling. Electrolytic lesions of the parafascicular thalamic nucleus did not reduce apomorphine- or amphetamine-induced circling in animals with a unilateral 6-OHDA lesion of the nigrostriatal pathway. Knife cuts rostral and dorsal to the substantia nigra did not attenuate circling induced by injection of muscimol into the substantia nigra. Circling due to activition of nigral output pathways can be mediated by descending nigro-reticular pathways.     

Tolerance to hypokinesia elicited by dopamine agonists in mice: Hyposensitization of autoreceptors?

In control mice, dopamine agonists like apomorphine and amphetamine have biphasic actions on motor activity : low doses elicit hypokinesia which disappears or is replaced by hyperkinesia at a higher dosage. In mice pretreated with a single dose of apomorphine, the hypokinesia is durably suppressed whereas the hyperkinesia elicited by amphetamine is not only present but facilitated. These observations could be explained on the assumption that, following their stimulation, hyposensitivity develops on autoreceptors regulating the activity of dopaminergic neurons whereas the sensitivity of postsynaptic receptors is not modified.     

Drug-induced circling after unilateral 6-hydroxydopamine lesions of the nigro-striatal pathway is mediated via the midbrain periaqueductal grey and adjacent reticular formation (angular complex)

Unilateral 6-hydroxydopamine (6OHDA) lesions of the nigrostriatal pathway resulted in contraversive rotation to apomorphine and ipsiversive rotation to amphetamine. Electrolytic lesioning of the nucleus reticularis gigantocellularis or kainic acid lesions of the nucleus tegmenti pedunculopontis on the same side as the 6OHDA lesion did not reduce apomorphine- or amphetamine-induced circling. An electrolesion of the angular complex (periaqueductal grey and adjacent reticular formation) on the same side as the 6OHDA lesion reduced apomorphine-induced circling and increased amphetamine-induced circling. Bilateral electrolesions of the angular complex reduced both apomorphine- and amphetamine-induced rotation. The decrease in rotation was due to a loss of postural asymmetry while locomotor hyperactivity was maintained. A unilateral kainic acid lesion of the angular complex alone caused weak ipsiversive rotation which was enhanced by apomorphine and amphetamine. When a unilateral kainic acid lesion of the angular complex was made on the same side as a prior 6OHDA lesion, both apomorphine and amphetamine induced ipsiversive rotation. The area of the angular complex is critically involved in the mediation of drug-induced circling in unilaterally 6OHDA lesioned rats and in particular the postural component.     

Tolerance to d-amphetamine: behavioral specificity.

In a Y-maze exploratory task mice tend to enter that compartment which was least recently visited (spontaneous alternation). Low doses of d-amphetamine (1.0 mg/kg) reduce alternation to chance levels, while high doses (10.0 mg/kg) result in animals successively visiting only two compartments of the Y-maze (perseveration). Following daily d-amphetamine injection (1.0 or 10.0 mg/kg) over a 30 day period tolerance to the d-amphetamine induced perseveration was observed; however, chronic amphetamine treatment did not modify the locomotor stimulating effects of d-amphetamine or the reduction of alternation to chance levels produced by low doses of the drug. It was hypothesized that tolerance to d-amphetamine occurs exclusively to behaviors mediated by norepinephrine.     

Chronic treatment with antidepressants prevents the inhibitory effect of small doses of apomorphine on dopamine synthesis and motor activity.

In control rats small doses of apomorphine (25 to 100 μg/kg) decreased motor activity and reduced DOPAC content in the caudate nucleus. A larger dose (500 μg/kg) increased motor activity and elicited stereotypy. Chronic treatment with imipramine, amitryptiline and mianserine (10, 10 and 2.5 mg/kg twice daily for 10 days respectively) counteracted or reversed the effect of small doses of apomorphine on motor activity, left DOPAC content unchanged and potentiated the central stimulant response to the larger dose of apomorphine. Changes in apomorphine responses were observed after ten but not after two days of imipramine treatment and persisted unaltered up to 4 days after imipramine withdrawal. It is suggested that chronic treatment with antidepressants induces persistent subsensitivity in presynaptic dopamine receptors. The relevance of the findings in the therapeutic effect of these drugs is discussed.     

Drug-induced circling preference in rats

Drugs of abuse, such as phencyclidine (PCP), methamphetamine (METH), and cocaine (COC) are known to affect several behaviors in rats, such as motor activity, stereotypy, and circling. In this study, we evaluated whether these drugs produce circling preferences in the presence or absence of unilateral 6-hydroxydopamine (6-OHDA)-induced lesions of the caudate nucleus. Adult male CD rats were lesioned with 10 μg 6-OHDA/site. Animals were dosed with PCP (15 mg/kg, ip), its congener, (+) MK-801 (0.15 mg/kg, ip), METH (2 mg/kg, ip), COC (60 mg/kg, ip), or apomorphine (0.2 mg/kg, ip). circling preference was recorded in control and lesioned rats for 2 h before animals were sacrificed to determine monoamine levels by HPLC/EC. In control animals, administration of these drugs produced 60–70% left circling. In, lesioned animals, these drugs produced 78–90% ipsilateral (toward the lesion) circling, except apomorphine, which produced 60–80% contralateral (away from the lesion) circling. Dopamine (DA) and its metabolites 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) concentrations significantly decreased ipsilaterally in lesioned caudate nucleus (CN) and substantia nigra (SN). However, no significant changes were observed in nucleus accumbens (NA) and olfactory tubercles (OT). These data demonstrate that drugs of abuse like PCP, its congener (+) MK-801, METH, and COC produce a greater preference to turn toward the left than the right, a finding similar to that found in human psychosis. Since 6-OHDA lesions enhanced the circling bias and depleted DA and its metabolites DOPAC and HVA, it also suggests that the dopaminergic system may be involved in the circling behavior.     

Age related alterations of motor behavior and release of dopaminergic supersensitivity in rats

Rats aged greater than or equal to 18 months show, aside from clearly diminished motor parameters (exploratory behavior, resting activity, nocturnal activity profile, rotation behavior), after intracerebral dopamine injection a considerably lower apomorphine hypermotility than young animals. The characteristic alteration of activity occurring in young rats during and following chronic administration of haloperidol (1 mg/kg . day, s.c. for 21 days) as an expression of developing dopaminergic supersensitivity does not appear in older animals. Repeated application of amphetamine (2 X 2 mg/kg daily) caused a significant increase in hypermotility. The results are interpreted as the consequence of a age-related reduction of the activity of central-dopaminergic transmission systems and are discussed with regard to possible differences in the realization of agonist- or antagonist-induced supersensitivity.     

Ethanol induces rotational behavior in 6-hydroxydopamine lesioned mice

Mice with unilateral striatal lesions created by 6-hydroxydopamine (6HDA) injection were screened for rotational (circling) behavior in response to injection of amphetamine and apomorphine. Those that rotated ipsilaterally in response to amphetamine and contralaterally in response to apomorphine were subsequently challenged with 1 to 3 g/kg (i.p.) ethanol. Surprisingly, ethanol induced dose related contralateral (apomorphine-like) rotation which, despite gross intoxication, was quite marked in most animals. No significant correlation was found between the number of turns made following ethanol and made after apomorphine or amphetamine.     

Proerectile effects of apomorphine in mice

Dopaminergic pathways play a key role in the central control of sexual behavior. Stimulation of central dopaminergic receptors elicits penile erection in a variety of species and has been proposed as a treatment option for erectile dysfunction in humans. The present study investigated the proerectile effects of apomorphine in mice. In this species, subcutaneous injection of apomorphine (range: 0.11-110 microg/kg sc) elicited three different behavioral responses: erection, erection-like responses and genital grooming. Proerectile effects of apomorphine were dose-dependent. More than 50% of mice displayed erections after administration of 1.1-11 microg/kg of apomorphine sc. Proerectile effects of apomorphine were blocked by haloperidol, a central D2 antagonist, but not by domperidone, a peripherally active dopaminergic antagonist. We conclude that apomorphine elicits erection in mice. This effect is dose-dependent and due to activation of central D2 dopaminergic receptors. The mouse model may be useful for pharmacological approaches designed to provide a better understanding of the central mechanisms of penile erection and sexual behavior.     

Extracellular Striatal Concentrations of Endogenous 3,4-Dihydroxyphenylalanine in the Absence of a Decarboxylase Inhibitor: A Dynamic Index of Dopamine Synthesis In Vivo

Abstract: Basal levels of endogenous 3,4-dihydroxyphenylalanine (DOPA) were detected by HPLC coupled with coulometric detection in dialysates from freely moving rats implanted 48–72 h earlier with transversal dialysis fibers in the dorsal caudate. Because decarboxylase inhibitor is absent in the Ringer's solution, this method allows monitoring of basal output of dopamine (DA) and 3,4-dihydroxyphenylacetic acid, as well as DOPA. Extracellular DOPA concentrations were reduced by the tyrosine hydroxylase inhibitor α-methylparatyrosine (200 mg/kg, i.p.) and by the dopaminergic agonist apomorphine (0.25 mg/kg, s.c.). The dopaminergic antagonist haloperidol (0.2 mg/kg, s.c.) stimulated DOPA output by about 60% over basal values. γ-Butyrolactone, at doses of 700 mg/kg, i.p., which are known to block dopaminergic neuronal firing and which reduce DA release, stimulated DOPA output maximally by 130% over basal values. Tetrodotoxin, which blocks DA release by blocking voltage-dependent Na⁺ channels, increased DOPA output maximally by 100% over basal values. The results indicate that basal DOPA can be detected and monitored in the extracellular fluid of the caudate of freely moving rats by transcerebral dialysis and can be taken as a dynamic index of DA synthesis in pharmacological conditions.     

Characterization of radiation-induced emesis in the ferret

Forty-eight ferrets (Mustela putorius furo) were individually head-shielded and radiated with bilateral 60Co gamma radiation at 100 cGy min-1 at doses ranging between 49 and 601 cGy. The emetic threshold was observed at 69 cGy, the ED50 was calculated at 77 cGy, and 100% incidence of emesis occurred at 201 cGy. With increasing doses of radiation, the latency to first emesis after radiation decreased dramatically, whereas the duration of the prodromal period increased. Two other sets of experiments suggest that dopaminergic mechanisms play a minor role in radiation-induced emesis in the ferret. Twenty-two animals were injected either intravenously or subcutaneously with 30 to 300 micrograms/kg of apomorphine. Fewer than 50% of the animals vomited to 300 micrograms/kg apomorphine; central dopaminergic receptor activation was apparent at all doses. Another eight animals received 1 mg/kg domperidone prior to either 201 (n = 4) or 401 (n = 4) cGy radiation and their emetic responses were compared with NaCl-injected-irradiated controls (n = 8). At 201 cGy, domperidone significantly reduced only the total time in emetic behavior. At 401 cGy, domperidone had no salutary effect on radiation-induced emesis. The emetic responses of the ferret to radiation and apomorphine are compared with these responses in other vomiting species.