Turning behaviour in animals

1-Methyl-4-phenylpyridine (MPP+): regional dopamine neuron uptake, toxicity, and novel rotational behavior following dopamine receptor proliferation

The regional uptake and subsequent dopaminergic toxicity, receptor proliferation, and rotational behavior pharmacology following intracerebral 1-methyl-4-phenylpyridine (MPP+) administration was determined in the rat. [3H]MPP+ was transported by the high-affinity dopamine uptake system equally in the caudate-putamen (CP), nucleus accumbens (NA) and olfactory tubercle (OT), and to a lesser extent in the substantia nigra. Consistent with the equivalent uptake of [3H]MPP+ by mesostriatal and mesolimbic dopamine neurons, dopamine concentrations of the ipsilateral CP and NA were decreased equally (83-98%) following a 10, 17.5 or 25 microgram injection of MPP+ along the left medial forebrain bundle (MFB). At four weeks after a 25 microgram injection of MPP+ into the MFB, the concentration (Bmax) of D2 receptors in the left CP was increased by 42% compared with the intact hemisphere. D2 receptors did not proliferate in the denervated nucleus accumbens. The affinity (Kd) of D2 receptors was not affected in either the CP or NA. The MPP+ injection, which was restricted to the region of striatonigral efferent fibers, also produced a 60% decrease in the GABA content of the substantia nigra. Ipsiversive rotational behavior was induced in MPP+-treated rats by systemic injections of d-amphetamine. Systemic injections of neither the dopamine agonist apomorphine nor agonist prodrug formulation of 1-DOPA and carbidopa induced contraversive rotation. These behavioral and neurochemical results are identical to those observed following concomitant destruction of striatonigral GABA and mesostriatal dopamine projections, and indicate that MPP+ may be toxic to GABAergic as well as to A10 and A9 dopaminergic neurons.

The dopamine autoreceptor agonist B-HT 920 stimulates denervated postsynaptic brain dopamine receptors in rodent and primate models of Parkinson's disease: a novel approach to treatment

B-HT 920 (6-allyl-2-amino-5,6,7,8-tetrahydro-4H-thiazolo-[4,5-d]azepine), an agonist at alpha 2-adrenoceptors and at dopamine autoreceptors, was tested with respect to stimulation of postsynaptic brain dopamine receptors in mice, rats and rhesus monkeys. In mice B-HT 920 (0.2-20 mg/kg s.c.) injected 4 h after reserpine did not stimulate locomotor activity; this was in contrast to apomorphine (0.1-10 mg/kg s.c.) which elicited locomotor activity in a dose-dependent manner. However, B-HT 920 was effective in inducing locomotor activity when injected 12, 24 and 48 h after reserpine. This effect was dose-dependent and increased with the duration of reserpine pretreatment. In naive rats, B-HT 920 (0.02-2.0 mg/kg s.c.) only decreased exploratory activity and did not elicit stereotyped activity in doses up to 4 mg/kg s.c. This was in contrast to the stereotypy-inducing effect of apomorphine (2.0 and 4.0 mg/kg s.c.). In rats with unilateral striatal ibotenic acid lesion, B-HT 920 (0.2-2.0 mg/kg s.c.) was ineffective in producing significant ipsilateral rotation, whereas apomorphine (0.5-10.0 mg/kg s.c.) was very potent in this model. In rats with unilateral 6-OH-dopamine lesions of the medial forebrain bundle B-HT 920 elicited strong contralateral rotation in a dose-dependent manner (0.02-1.0 mg/kg s.c.). In this model B-HT 920 was equi-effective but long acting when compared with apomorphine. The contralateral rotation produced by B-HT 920 was antagonized by the D2-antagonist sulpiride but not by the D1-antagonist SCH 23390. In rhesus monkeys with severe parkinson-like symptoms induced by MPTP, B-HT 920 in doses of 10 micrograms/kg i.m. and higher restored normal behavior, resulting in complete relief of parkinson symptoms in all animals with 100 micrograms/kg i.m. It is concluded that the property of B-HT 920 to stimulate the 'denervated' supersensitive (reserpine, 6-OH-dopamine, MPTP) but not the normosensitive postsynaptic dopamine receptor in the striatum may represent a novel principle for a specific approach to dopamine substitution treatment of Parkinson's disease.

Opiate-induced turning in rats after injection into the ventral tegmental area

Morphine and ethylketazocine caused ipsilateral circling when injected unilaterally into the ventral tegmental area (VTA) of rats. Systemic naloxone only slightly inhibited this effect while systemic diprenorphine completely prevented circling. Systemic haloperidol and alpha-methyl-p-tyrosine also blocked circling. Rats made tolerant to morphine still turned after morphine injection into the VTA. Levorphanol, dextrorphan, methadone, DADLE, dynorphin(1-13), SKF 10,047 and phencyclidine were inactive when injected unilaterally into the VTA of naive rats; naloxone and naltrexone alone also were inactive. The opiate-induced circling appears to involve a non-mu opiate receptor as well as a dopaminergic neuronal system.

Differential effects of prenatal exposure to alcohol on activity and circling behavior in rats

The effects of prenatal exposure to alcohol on behavioral correlates of catecholaminergic function were examined in three experiments. In each experiment, subjects had one of 3 prenatal treatment histories: prenatal alcohol-exposed (35% ethanol-derived-calories, 35% EDC), nutritional control (0% ethanol-derived calories, 0% EDC) or standard control (lab chow, LC). In the first experiment, juvenile (33 to 59 days of age) female rats were tested for 16 hours overnight in standard rotometers. Subjects in the 35% EDC group were more active compared to both control groups, who did not differ from each other. However, the degree of circling (rotation) was not altered by prenatal exposure to alcohol. Since there was a positive correlation between age and rotation in the LC group, but not in the other 2 groups, adult female rats were similarly tested overnight in the rotometer. Again, circling behavior was not differentially affected by prenatal exposure to alcohol. Total overnight activity was no longer significantly greater in the adult 35% EDC group, although their initial activity was higher than that of the LC control group. In the third experiment, subjects from Experiment 2 were administered d-amphetamine (1.25 mg/kg) and tested in the rotometer for 1 hour. Both rotation and activity were increased by d-amphetamine, but there was not a significant interaction with prenatal alcohol exposure. Since rotation is a reflection of the intrinsic asymmetry of the nigrostriatal system, these results suggest that prenatal exposure to alcohol does not alter the development of this asymmetry.

Dopamine-like activities of an aminopyridazine derivative, CM 30366: a behavioural study

The behavioural effects of CM 30366, an aminopyridazine derivative, on dopamine-mediated neurotransmissions, have been studied in mice and rats. CM 30366 induced stereotyped behaviour and antagonized haloperidol-induced catalepsy in rats, after parenteral and oral administration. In 6-hydroxy dopamine (6-OHDA)-lesioned mice, CM 30366 induced contralateral rotations and, when injected before 6-OHDA, protected mice against its neurotoxicity. CM 30366 also provoked contralateral rotations when injected directly into the mouse right striatum. After parenteral injection, CM 30366 slightly increased motility in mice, at least at low doses. The stereotypies and rotations (after intrastriatal injection) induced by CM 30366 were antagonized by haloperidol, alpha-methyl-p-tyrosine and reserpine. The effects of CM 30366 were compared to those of direct and indirect dopamine-like drugs. Bromocriptine induced a behavioural profile, which in most aspects, was qualitatively and quantitatively similar to that of CM 30366. Apomorphine was found slightly more potent than CM 30366, but in contrast to the latter, apomorphine-induced stereotypies were insensitive to alpha-methyl-p-tyrosine or reserpine. (+)-Amphetamine and nomifensine were less potent than CM 30366, and unlike CM 30366, induced ipsilateral rotations in 6-OHDA-lesioned mice. These results indicate that CM 30366 is a potent atypical dopamine-like drug of potential therapeutic usefulness.

Inhibition of SKF 38393- and pergolide-induced circling in rats with unilateral 6-OHDA lesion is correlated to dopamine D-1 and D-2 receptor affinities in vitro

The effects of 30 dopamine (DA) antagonists, including 4 as stereoisomeric pairs, on circling behaviour induced by the D-1 agonist SKF 38393 and the D-2 agonist pergolide in rats with unilateral 6-hydroxy-DA lesions have been studied. SKF 38393-induced circling was selectively blocked by the specific D-1 antagonists SCH 23390 and SKF 83566, and was furthermore blocked by other DA antagonists with potencies correlating to their affinities to D-1 receptors labelled by 3H-SCH 23390 in vitro. Pergolide-antagonistic potencies in contrast correlated to affinities to D-2 receptors labelled by 3H-spiperone in vitro. Pergolide-induced circling was selectively blocked by the specific D-2 antagonists in the benzamide series. No interaction between D-1 and D-2 antagonists was observed in combination experiments with SCH 23390 and YM 09151-2 in both circling models. Among other reference neurotransmitter antagonists acting on alpha- and beta-adrenoceptors, histamine, serotonin and muscarinic receptors, only the alpha 1-adrenoceptor antagonist prazosin was effective in high doses. In contrast, the alpha 2- and beta-adrenoceptor agonists clonidine and clenbuterol as well as the muscarinic agonist RS 86 inhibited circling induced by SKF 38393 as well as pergolide. The 5-HT1A agonist 8-OHDPAT inhibited pergolide-induced circling only. It is concluded that these two behavioural models are selective in vivo measures of relative D-1 and D-2 receptor activity of DA antagonists.

The dopaminergic innervation of the ventral striatum in the rat: a light- and electron-microscopical study with antibodies against dopamine

Dopamine (DA) in the dorsal and ventral striatum is associated with different aspects of locomotor activity control. The ventral striatum may form an interface between the limbic system and the extrapyramidal motor system. The distribution of dopaminergic fibers in this interface position was studied in detail with a method applying antibodies against DA. Furthermore, the ultrastructural morphology of the DA fibers was examined by means of immuno-electron microscopy. The results show that DA immunoreactivity is distributed over the ventral striatum in a highly compartmentalized fashion. In the dorsal striatum few compartments were found. The DA fibers in the ventral striatum establish mainly symmetric synaptic contacts, preferably with dendritic shafts and spines. The results are discussed in relation to previous data concerning the light and electron-microscopic identification of catecholaminergic fibers in the ventral and dorsal striatum.

Chronic treatment with bromocriptine induces behavioral supersensitivity in rats

Chronic treatment of rotating rats with equipotent doses of the dopamine (DA) agonists apomorphine (APO), 3-(3,4-dihydroxyphenyl)-1-n-propylpyrrolidine hydrobromide (DPPP) and bromocriptine (BRO) for four weeks resulted in marked differences in rotational activity following acute administration of these agonists. Whereas chronic treatment with APO and DPPP failed to produce any significant changes in agonist-induced rotational behavior, chronic BRO treatment induced a progressive increase in rotational activity up to a mean 200% increase over controls at four weeks. These findings may, in part, explain the long-term clinical efficacy of bromocriptine in patients with Parkinson's disease.

On the requirement of postural asymmetry for rotational behaviour

Focal, unilateral injection of muscimol into the rat substantia nigra, pars reticulata evoked two outwardly different forms of contraversive rotation. In the first (and most common) type of circling, animals adopted a tight curvature of the whole head and body about the longitudinal axis and propelled themselves primarily with their forelimbs. In other cases, little if any postural asymmetry was present during rotation in equivalent diameter circles created by use of both fore- and hindlimbs. Each profile correlated with the nigral locus injected. It is reiterated that postural asymmetry is not essential for rotation.

6-Hydroxydopamine-induced turning behaviour in the rat: the significance of acetylcholinesterase in cerebrospinal fluid

In the substantia nigra, acetylcholinesterase may have a novel function related not to cholinergic transmission, but to the homeostasis of dopaminergic nigrostriatal neurones. The initial aim of this study was thus to see whether, in the rat, release of the enzyme into cerebrospinal fluid would reflect turning behaviour following unilateral 6-hydroxydopamine lesions of varying severity. It was found that acetylcholinesterase levels, lower than those in the cerebrospinal fluid of control rats, were accompanied by marginal circling behaviour and a small loss of striatal dopamine: on the other hand, elevated acetylcholinesterase activity was observed in the cerebrospinal fluid of rats displaying vigorous turning behaviour and with large depletion of striatal dopamine. It has already been demonstrated that exogenous acetylcholinesterase, applied locally to nigral neurones, has both electrophysiological and behavioural effects reminiscent of dopamine agonists. Hence it is possible that exogenous acetylcholinesterase could modify turning behaviour resulting from unilateral striatal dopamine depletion. Purified acetylcholinesterase, administered by cisternal puncture, attenuated circling behaviour for up to 7 days. The possible mechanisms are discussed by which endogenous acetylcholinesterase in cerebrospinal fluid could serve as an index of dopamine depletion in the nigrostriatal pathway and how exogenous enzymes might alleviate the accompanying motor dysfunction.

Dopaminergic and serotonergic correlates of stimulation-induced circling

Rotation induced by electrical stimulation of the medial forebrain bundle at the level of the lateral hypothalamus was associated with increases in dopamine (DA), 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) in the striatum ipsilateral to the site of stimulation (i.e. contralateral to direction of turning). The concentrations of DA, DOPAC and HVA within the nucleus accumbens (NAS) were not altered. In the olfactory tubercle (OT), concentrations of DA and both metabolites were, in general, elevated ipsilateral to the electrode. However, relative to non-stimulated controls, HVA concentrations were increased bilaterally in rats exhibiting circling. Stimulation-induced circling also resulted in a bilateral enhancement of striatal serotonin (5-HT) metabolism as indicated by elevated 5-hydroxyindoleacetic acid: 5-HT ratios. No changes in 5-HT metabolism were observed in the NAS. The utilization of 5-HT was elevated in the OT ipsilateral to the electrode in rats that exhibited stimulation-induced rotation. While most subjects that exhibited contraversive rotation in response to the stimulation demonstrated enhanced DA activity, the neurochemical changes were not observed in all subjects. As such, it is concluded that while stimulation of the mesotelencephalic DA system can be associated with stimulation-induced rotation it is not necessary for its elicitation.

Neuropathology and amphetamine-induced turning resulting from AF64A injections into the striatum of the rat

The putative specific cholinergic neurotoxin AF64A was prepared by a micro-scale procedure which afforded the neurotoxin in greater than 95% purity and was microinjected unilaterally into the striatum of male albino rats. The AF64A-injected animals displayed amphetamine- and apomorphine-induced ipsilateral turning indicating disruption of normal striatal pathways. These turning effects were absent in the control injected animals. Histological examinations of the brains revealed that AF64A in amounts as low as 1 nmole produced regions of necrosis in the striatum in some cases extending along the cannula tract up to and including the cortex. These results indicate that the striatum is highly sensitive to relatively low doses of AF64A, and that consideration should be given to the possibility of gross tissue damage when interpreting behavioral data.

Evidence for dopaminomimetic effect of intrastriatally injected cholecystokinin octapeptide in mice

The behavioural effect of intrastriatally injected cholecystokinin sulphated octapeptide (CCK-8S), and its interactions with the antagonists Z-CCK-(27-32)NH2 and proglumide, were investigated in mice. When injected into the right striatum, CCK-8S (0.05-1 ng) induced contralateral rotations, as did the dopamine agonist apomorphine. Non-sulphated CCK-8 was inactive and sulphated desamino-CCK-7 was only weakly active in this respect. CCK-8S-induced turning was antagonized by co-injected Z-CCK-(27-32)NH2 (0.01-10 ng) or proglumide (0.1-1 micrograms), as well as by intraperitoneal injection of the neuroleptic drug haloperidol. These data suggest that CCK-8S may, in these conditions, stimulate dopamine-mediated neurotransmission, and that Z-CCK-(27-32)NH2, in addition to its peripheral effect, is also a very potent CCK antagonist at the striatal level.

Electroconvulsive shock and L-dopa reduce head-turning induced by electrical stimulation of the caudate nucleus in the rat

The effect of repeated electroconvulsive shock (ECS) and L-dopa on contralateral head-turning induced by electrical stimulation of the caudate nucleus in rats was determined. Repeated ECS treatment consisting of a single daily ECS for 10 days was found to increase the number of caudate stimuli required to induce head-turning. As reported by others, oral L-dopa (250 mg/kg) was also found to antagonize the caudate stimulation-induced head-turning. The repeated ECS treatment had an additive effect with the 250 mg/kg L-dopa dose to increase the number of stimulations to induce the head-turn. These findings support previous reports that repeated ECS enhances dopamine-mediated behaviors as well as the theory that caudate stimulation-induced head-turning is mediated in part by dopaminergic mechanisms.

Lateralized and compulsive exteroceptive orientation in rats treated with apomorphine

A new behavioral test afforded the original demonstration of a compulsive and extremely lateralized taxis for edges in a minority (16%) of rats treated with the dopamine (DA) receptor agonist apomorphine (APO) (1.25 mg/kg, s.c.). APO also induced a reliable lateralization of locomotor direction in a rotometer in 29% of rats. The lateralizing effects of the drug on taxis for edges and rotational direction were not reliably associated, however, suggesting that these effects of APO are independent of each other. Interhemispheric asymmetries of DA receptors in functionally distinctive brain regions may underlie the diverse lateralizing effects of APO in subpopulations of rats.

The sialagogue response of striatal dopamine receptors to L-dopa is not influenced by castration or chronic estrogen treatment

The secretory response of salivary glands to L-dopa, elicited by stimulation of dopamine receptors in the striatum and the circling behavior induced by apomorphine in animals bearing a unilateral kainic lesion of the entopeduncular nucleus, was studied in intact and ovariectomized female rats. Castration did not modify the sialagogue response to L-dopa, while the turning behavior was significantly increased. Daily administration of 17-beta-estradiol benzoate during 7 days to ovariectomized rats decreased the circling activity to the level of intact female rats, while the salivary secretion to L-dopa was unaffected. The above findings suggest that the sialagogue response induced by L-dopa may be due to the interaction of this agonist with D1 striatal receptors, whose activity is not influenced by estrogens. However, we cannot rule out any possible alteration in the metabolism and/or presynaptic conversion of L-dopa to dopamine by estrogen treatment. The changes in turning behavior may be attributed to an antidopaminergic effect of estrogens and/or, like L-dopa, to modifications in the metabolism of apomorphine induced by the hormone.

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.

Dissociation between circling behaviour and striatal dopamine activity following unilateral deltamethrin administration to rats

The neurotoxic pyrethroid, deltamethrin, induces a severe motor syndrome characterised by tremor and choreoathetosis when injected systemically to rats. The interaction between deltamethrin and the two major dopaminergic pathways - the nigrostriatal and mesolimbic pathways - was investigated in rats. Striatal catecholamines, indoleamines and metabolites were measured by HPLC with electrochemical detection. Unilateral injection of deltamethrin (1.0 microgram) into the ventral tegmental nucleus or substantia nigra induced rapid ipsilateral or contralateral circling respectively but was ineffective at other basal ganglia sites. Both the sham and vehicle injections at either site, resulted in a marked increase above normal in DA turnover in the ipsilateral striatum without inducing circling behaviour. DA turnover was increased to the same extent in the ipsilateral stratum of deltamethrin-treated rats where rapid circling was present. Therefore the neurochemical findings were not consistent with the rotation theories based on striatal DA asymmetry but rather followed alternative mechanisms previously proposed, where circling behaviour can occur by mechanisms not causally related to striatal DA. These findings also indicate that a degree of selectivity exists in the action of deltamethrin, a sodium channel toxin that might be expected to act on all neuronal systems within the SN or VTN or equally at other sites within the basal ganglia associated with circling behaviour.

GABA axons in synaptic contact with dopamine neurons in the substantia nigra: double immunocytochemistry with biotin-peroxidase and protein A-colloidal gold

Two different antigens in the same ultrathin section of brain tissue can be revealed by 'double immunocytochemistry' in which one antigen is detected by horseradish peroxidase and the other by silver intensification of colloidal gold (SIG) adsorbed to Protein A. By means of this procedure it has been possible to show that GABAergic axon terminals (containing glutamate decarboxylase) are in synaptic contact with the cell bodies and dendrites of dopaminergic neurons (containing tyrosine hydroxylase) in the substantia nigra of the rat. Thus, several of the physiological and pharmacological effects of GABA and GABAergic drugs in this part of the brain are likely to be mediated by a direct action via postsynaptic GABAergic receptors located on dopaminergic nigrostriatal neurons.

Benzamide potentiation of behavioral apomorphine-induced effects; mechanism involved

A new N-pyridinyl benzamide was found to potentiate strongly the effects of apomorphine on the motility of reserpinized mice and on circling behavior. Since dopaminergic agonist activity could not account for this potentiation, involvement of alpha 2-adrenergic agonist activity provided the only consistent explanation.

Behavioral and biochemical assessment of time-related changes in globus pallidus and striatal dopamine induced by intranigrally administered neurotensin

Microinjection of neurotensin (NT; 2 and 5 micrograms) into the substantia nigra zona compacta caused an increase in dopamine (DA) and DA metabolites in the rodent globus pallidus and striatum which persisted for at least 20 hours after peptide administration. Similar NT treatments given unilaterally into the nigra caused circling away from the injected side in amphetamine-pretreated rats, but were without effect when microinjected into saline-pretreated animals. Circling also occurred when the animals were given amphetamine 20 hours after intranigral NT administration. Contralateral rotation was observed with unilateral intranigral injections of gamma-hydroxybutyric acid (GHB; 400 micrograms) or with lower intranigral GHB doses (250 micrograms) in amphetamine-pretreated animals. The effects of GHB and NT differed in the manner in which the animals rotated as well as in the profile of DA and DA metabolite changes induced by these drugs. These studies indicated that: dopaminergic functions of the globus pallidus are influenced, like the striatum, by manipulations of the substantia nigra: NT and GHB likely act via different mechanisms to effect nigral dopamine-containing cells; and NT was capable of inducing changes in dopamine neurons which had long term consequences.

Rotational behaviour elicited by intracerebral injections of apomorphine and pergolide in 6-hydroxy-dopamine-lesioned rats. II: The striatum of the rat is heterogeneously organized for rotational behaviour

The present study compares the role of the nucleus accumbens and the striatum, as well as various regions of the striatum, in the ability of intracerebral injections of the dopamine agonists apomorphine and pergolide to elicit rotational behaviour in 6-hydroxy-dopamine-lesioned rats. We found that apomorphine and pergolide elicit rotational behaviour when injected into the denervated striatum, but not when injected into the ipsilateral nucleus accumbens. The striatum seems heterogeneously organized as regards rotational behaviour since maximal-apomorphine rotation was elicited from the corpus of the striatum as compared to the effects produced by injections into the head and the tail of the striatum. This topographical distribution is similar to the distribution of dopamine-stimulated cyclic AMP. The pergolide response is more evenly distributed in the striatum. It is suggested that the difference in the topographical distribution of the ability of apomorphine and pergolide to elicit rotational behaviour reflects a regional distribution of dopamine receptors in the striatum of the rat.

Lack of relationship between the direction of operant turning and horseradish peroxidase uptake by crossed nigro-striatal projections

We examined the effect of training rats to perform an operant turning response on the crossed nigro-striatal projections. Rats were reinforced for circling behavior with water. After 7 days of reinforced circling, the animals were implanted with horseradish peroxidase in the striatum either ipsilateral or contralateral to the direction in which they had been trained to turn. Subsequently, the substantia nigra, ventral tegmental area, and retrorubral area in both hemispheres were examined for labeled cells. This analysis failed to reveal any relationship between the direction of reinforced circling and efferents from these areas to the striatum.

Kindling of dopaminergic pathways modifies the effect of substantia nigra lesions on rotational behaviour

Recent studies in rats have implicated a crossed nigrostriatal (NS) pathway in the behavioural recovery that may follow unilateral lesions of the substantia nigra pars compacta (SNc). In the present study, cerebral dominance was determined from the rat's preferred direction of amphetamine-induced rotation. The ventral mesencephalic area giving rise to the crossed nigrostriatal pathway was then kindled either in the dominant hemisphere (in half of the rats), or in the non-dominant hemisphere (in the rest). All rats were then given 6-hydroxydopamine lesions in the lateral portion of the SNc on the dominant side. In control groups, the kindling procedure or electrode implantation was omitted. Neither kindling alone nor the lesion alone was found to alter the direction of amphetamine-induced rotation. In combination, however, kindling in the dominant hemisphere followed by lesioning of the lateral SNc in the dominant hemisphere caused a significant shift in the direction of rotation. This finding can be interpreted in terms of a long-term potentiation of the crossed nigrostriatal pathway after kindling. It is suggested that partial deafferentation of the neostriatum in the dominant hemisphere, combined with enhanced cross-innervation of the contralateral system, led to a shift of cerebral dominance to the intact side.

Relationship between interhemispheric nigrostriatal projections and the direction of rotational behavior induced by amphetamine

This experiment dealth with the relationship between the direction of amphetamine-induced turning and the distribution of crossed nigrostriatal projections in the rat. Animals that showed a high degree of asymmetry, as indicated by the consistency and amount of turning behavior elicited by repeated amphetamine administration, were implanted with horseradish peroxidase (HRP) in the striatum either ipsilateral or contralateral to their dominant direction of rotation. Microscopic analysis revealed a relationship between the direction of amphetamine-induced asymmetry and the number of HRP-labeled cells found in the substantia nigra contralateral to the striatum into which the tracer was implanted; i.e., animals with the HRP applied contralateral to their dominant turning direction had more labeled cells in the caudal part of the substantia nigra of the opposite hemisphere than those animals implanted ipsilaterally. There was no relationship between the direction and the number of labeled cells found in the ventral tegmental area and retrorubral area contralateral to the tracer implantation site. Moreover, there was no association between the direction of amphetamine-induced turning and the number of labeled cells found in the homolateral substantia nigra, or ventral tegmental and retrorubral areas.

Effects of drugs on neurotransmitter release: experiments in vivo and in vitro

Calcium ions play a fundamental role in the release of transmitters in the nervous system. Therefore, drugs capable of modifying Ca2+ transport are useful tools for studying the mechanisms of such release in vivo and in vitro. In this article the action of some of these drugs on motor behavior, as well as on Ca2+ uptake and neurotransmitter release in synaptosomes, is reviewed. Ruthenium red (RuR) inhibits Ca2+ uptake and transmitter release in synaptosomes, and produces flaccid paralysis when injected intraperitoneally (IP) and convulsions after intracranial administration. Drugs which stimulate the Ca2+-dependent transmitter release in synaptosomes, such as 4-aminopyridine, antagonize the paralysis produced by RuR. Lanthanum ions also inhibit Ca2+ uptake and neurotransmitter release in synaptosomes, but no paralysis was observed after La2+ IP injection. However, this cation blocks the binding of RuR to the presynaptic membrane, and prevents the RuR-induced paralysis. Veratridine and the Ca2+ chelator EGTA were used to demonstrate in synaptosomes that besides the Ca2+-dependent mechanism of release of the central inhibitory transmitter gamma-aminobutyric acid (GABA), there seems to be a strictly Na+-dependent process which is not shared by other transmitters such as acetylcholine or dopamine.

Differential effects of intrafrontocortical microinjections of dopamine agonists and antagonists on circling behavior of rats

Asymmetric posturing and circling behavior resulting from acute unilateral manipulation of central dopamine have been used to assess this neurotransmitter's contribution to motor control. Although providing extensive evidence for the involvement of mesolimbic and nigrostriatal dopamine in motor activity, this approach has not been used to study the mesocortical system. We now report circling behaviour following acute manipulation of frontal cortical dopamine. Unilateral microinjections of the agonists, (+)-amphetamine (12 and 25 micrograms in 1.0 microliter) and LY 141865 (12 micrograms in 1.0 microliter) resulted in contraversive circling. Conversely, unilateral intrafrontocortical microinjections of the antagonist, metoclopramide (25 and 100 micrograms in 1.0 microliter) resulted in ipsiversive circling in amphetamine (1.5 mg/kg, i.p.) pretreated rats. Lower central doses of each drug and vehicle injections had no significant effect. These results provide evidence for an excitatory influence of mesocortical dopamine on motor control. This finding may implicate frontal cortical dopamine in the extrapyramidal motoric side effects of chronic neuroleptic treatment which previously have been attributed to dopamine function in subcortical areas.

Asymmetric behavior induced by enkephalinergic agents in the basal ganglia

The caudate-putamen (CDp) and the globus pallidus (GP) are sites rich in both leucine (LEU) and methionine-enkephalin (MET-ENK) and in ENK receptors. Since chemical and electrolytic lesions of the CDp and GP result in a reduction in ENKs and their receptors and in motor asymmetry, there may be a role for CDp and GP ENKs in rotational behavior and bodily asymmetry. To test this possibility, various doses of D-ALA-2-LEU-ENK, D-ALA-2-MET-ENK, naloxone and naltrexone were injected into the CDp and GP through chronically implanted cannulae. The injections of MET and LEU-ENK caused dose-dependent ipsiversive rotations while injections of naloxone and naltrexone caused contraversive rotations. All of the drug injections also caused bodily asymmetries which were in the same direction as the circling. Intraperitoneal injections of naloxone dose-dependently blocked the rotational behavior induced by the most effective dose of the ENKs used. ENK injections into sites adjacent to the CDp and GP (i.e., cortex, nucleus accumbens and the region bordering the bed nucleus of the stria terminalis and the bed nucleus of anterior commissure) failed to produce any significant circling. These results clearly suggest that CDp and GP ENKs cause ipsiversive rotational behavior and bodily asymmetry and must be considered as one element of the control exerted by the basal ganglia over the motor system.

Effects of serotonergic activity in nucleus accumbens septi on drug-induced circling

The effects of injections of 5-hydroxytryptamine (5-HT) into the nucleus accumbens and lesions of the nucleus accumbens induced by 5,7-dihydroxytryptamine (5,7-DHT) on drug-induced circling were investigated in rats with unilateral nigrostriatal lesions induced by 6-hydroxydopamine (6-OHDA). Injections of 5-HT (60-120 micrograms in 1 microliter; 1 microliter/min) into the nucleus accumbens caused a significant decrease in the circling response to 5.0 mg/kg of d-amphetamine (s.c.). The distribution of radioactivity after intracerebral injections of [3H]5-HT using these parameters showed that although much of the injected material was retained in the nucleus accumbens there was also considerable spread to the frontal cortex. However, in further behavioural experiments, using an injection procedure (0.5 microliter; 0.11 microliter/min) which caused much greater retention of injected material in the nucleus accumbens, with minimal spread to the frontal cortex, the ability of 5-HT injected into the accumbens to block amphetamine-induced circling was not diminished. Moreover, injections of 5-HT into the frontal cortex did not have any effect on amphetamine-induced circling. Lesions of the nucleus accumbens induced by 5,7-DHT caused a significant enhancement of the contralateral circling response to 1.0 mg/kg of apomorphine and a similar but non-significant tendency to increase the circling responses to several other doses of apomorphine and amphetamine. The results provide evidence that serotonergic mechanisms in the nucleus accumbens inhibit circling behaviour generated by unilateral activation of nigrostriatal dopaminergic mechanisms.

Glutamate decarboxylase-immunoreactive structures in the rat neostriatum: a correlated light and electron microscopic study including a combination of Golgi impregnation with immunocytochemistry

An antibody to glutamate decarboxylase has been used in a light and electron microscopic study of the neostriatum of rats that had received intracerebral injections of colchicine. In the light microscope, neuronal perikarya and small punctate structures that displayed immunoreactivity were found. The perikarya could be divided into two classes based on their sizes: small-to-medium-sized and large. Proximal dendrites, axon initial segments, and axon collaterals were occasionally stained. When the nuclei of the neurons were visible, they possessed indentations. The immunoreactive punctate structures were spread evenly throughout the neostriatum but occasionally were associated with immunoreactive and nonimmunoreactive perikarya. When the same sections were examined in the electron microscope, the small-to-medium-sized immunoreactive perikarya were found to be similar in morphology and synaptic input to a class of Golgi-impregnated neuron that has been previously shown to accumulate locally administered, radiolabelled gamma-aminobutyric acid. Neurons with the ultrastructural characteristics of typical striatonigral neurons did not display immunoreactivity. As neurons in this pathway probably contain gamma-aminobutyric acid, it is possible that our procedure or our antibody does not stain all gamma-aminobutyric-acid-containing structures in the neostriatum. A total of 404 immunoreactive punctate structures were examined by correlated light and electron microscopy or by electron microscopy alone. They were identified as immunoreactive axonal boutons and each of them, when examined in serial sections, displayed typical synaptic specialisations. Membrane specialisations were always of the symmetrical type. At least five distinct targets of the immunoreactive terminals were identified: neurons that were themselves immunoreactive for glutamate decarboxylase; the immunoreactive terminals made synaptic contact with all parts of the neurons examined, i.e., perikarya, proximal dendrites, and axon initial segments. Neurons identified by Golgi impregnation of the same sections as medium-sized and densely spiny; the immunoreactive terminals made contact predominantly with the perikarya and dendritic shafts. Large neurons found only in the ventral caudate-putamen, whose somata and dendrites were ensheathed in immunoreactive terminals. Medium-sized nonimmunoreactive perikarya that possessed nuclear indentations. Large nonimmunoreactive perikarya that had the typical structural features of striatal cholinergic neurons.(ABSTRACT TRUNCATED AT 250 WORDS)

Disinhibition as a basic process in the expression of striatal functions. I. The striato-nigral influence on tecto-spinal/tecto-diencephalic neurons

The striato-nigro-collicular pathway is one of the neuronal circuits through which basal ganglia can influence ocular and cephalic motricity. Through this pathway striatal signals are conveyed to a major collicular efferent system i.e. the tecto-spinal/tecto-diencephalic neurons (TSD). A striking particularity of the striato-nigro-collicular connection is to present an assemblage of two successive GABAergic inhibitory links. To analyze how striatal information is expressed through this double inhibitory system we made use of concomitant unitary recordings of substantia nigra pars reticulata (SNR) and TSD activity while nigral and/or striatal activity was changed by local applications of pharmacological agents. We observed (1) that an intranigral application of GABA which transiently abolishes the tonic discharge of SNR cells, causes the TSD cells to discharge vigorously. During this period of increased excitability the responsiveness of TSD cells to somatosensory input is significantly enhanced; (2) that an intrastriatal injection of glutamate which silences the nigro-collicular cells, causes the TSD cells to discharge. This striatally induced tectal firing being sensitive to intranigral application of a GABA antagonist (bicuculline), led us to the conclusion that striatum exerts a facilitatory influence on TSD cells by releasing these neurons from the tonic inhibitory nigral influence. The functional implication of such a mechanism is discussed in the light of the current knowledge on the involvement of basal ganglia in eye/head orienting movements.

Effects of phencyclidine (PCP)-like drugs on turning behavior, 3H-dopamine uptake, and 3H-PCP binding

In this study representatives from three chemical classes which are known to produce a phencyclidine (PCP)-like discriminative stimulus cue in rats were tested for their ability to inhibit synaptosomal uptake of 3H-dopamine (3H-DA) and to compete for a binding site labeled with 3H-PCP. Although there was a good correlation between these two in vitro activities within the arylcycloalkylamine class (PCP, N-ethyl-phenylcyclohexylamine (PCE), and ketamine) it did not hold when representatives from the benzomorphans, N-allynormetazocine (NANM), cyclazocine (CYCL), and ethylketocyclazocine (EKC), or a substituted dioxolane (etoxadrol) were included. At some dose each of these drugs with the exception of EKC also produced ipsilateral turning in rats with a unilateral 6-hydroxydopamine lesion of the substantia nigra. This effect was also not well correlated with inhibition of 3H-DA uptake. However, a significant correlation was found to exist between turning behavior and affinity for the putative PCP/sigma receptor. The possibility that a non-dopaminergic mechanism involving the PCP/sigma receptor underlies the ability of these agents to induce turning behavior is discussed.

Circling behavior in mice and rats: possible relationship to isolation-induced aggression

The relationship between circling behavior (rotation), isolation, and aggression was investigated in normal male mice and rats. Initially the animals were tested for spontaneous nocturnal rotation, then conspecific aggression and muricidal behavior was observed for mice and rats respectively. Subsequently, animals were paired on the basis of net nocturnal rotations and either group-housed or individually housed. Four weeks later all animals were retested for the same behaviors. Spontaneous nocturnal rotation increased significantly for the isolated mice but not for the group-housed animals. Moreover, 9 of the 10 isolates became aggressive and their net rotations were significantly and positively correlated with the number of biting attacks. None of the group-housed mice became aggressive. Rats, on other hand, showed a decrease in rotation and a relationship between rotation and muricidal behavior was not evident. The possible relationship between circling behavior, aggression, and territoriality is discussed.

Involvement of nigrostriatal dopamine neurons in the contraversive rotational behavior evoked by electrical stimulation of the lateral hypothalamus

This experiment was conducted to determine if nigrostriatal dopamine (DA) neurons are necessary for the contraversive rotational behavior evoked by electrical stimulation in the lateral hypothalamus. Rats were tested daily for electrical stimulation-induced rotational behavior (ESRB) for 5 days, and then given an injection of 6-hydroxydopamine (6-OHDA) or saline into the ipsilateral substantia nigra. The nearly total depletion of striatal DA (greater than 96%) completely abolished contraversive ESRB and resulted in the appearance of ipsiversive ESRB. Partial DA depletion (less than 95%) had no effect on contraversive ESRB. In animals with a partial DA depletion subsequent treatment with a low dose of alpha-methyl-p-tyrosine (40 mg/kg) attenuated contraversive ESRB, while having no effect on control animals, or the ipsiversive turning in animals with greater than 96% DA depletion. We conclude that the nigrostriatal DA system is necessary for contraversive rotational behavior evoked by lateral hypothalamic stimulation, but that only a small percentage of DA fibers are required to maintain apparently 'normal' function--at least as indicated by contraversive ESRB.

Effects of unilateral microinjections of sulpiride into the medial prefrontal cortex on circling behavior of rats

Bilateral 6-OHDA lesions of rats' medial prefrontal cortex increased locomotor activity after 7-10 days suggesting that cortical DA may normally inhibit motor behaviour. However, hyperactivity may have resulted from enhanced subcortical DA function. Acute manipulation of frontal cortical DA neurotransmission in the present experiment avoided lesion-induced subcortical changes. Sulpiride (0, 6, 12, 24 micrograms in 1 microliter) was injected unilaterally into the medial prefrontal cortex of rats pretreated with (+)-amphetamine (1.5 mg/kg, i.p.). Circling behavior was scored during four 5-min intervals of a 60-min test session which began with injections and placement in a flat, circular arena. SUL resulted in ipsiversive circling whereas its vehicle did not. These results were consistent with those seen with other DA drugs and suggest an excitatory influence of frontal cortical DA on locomotor activity.

Circling and bodily asymmetry induced by injection of GABA agonists and antagonists into the superior colliculus

The observation that ipsiversive circling follows unilateral lesions of the deep layers of the superior colliculus (DLSC), combined with the recent demonstration of an ipsilateral inhibitory GABAergic projection from substantia nigra pars reticulata (SNr) to the DLSC suggests a role for tectal GABA in circling behavior. In the present experiment, GABA, the GABA agonist muscimol, and the GABA antagonists picrotoxin and bicuculline were injected into the DLSC through chronic cannulae. GABA and muscimol produced significantly higher ipsiversive circling and bodily asymmetry than saline injections. Picrotoxin and bicuculline resulted in significantly higher contraversive circling and asymmetry than saline injections. All drugs except bicuculline produced dose-dependent circling. GABA injections were also made into the mesencephalic reticular formation (MRF) and the periaqueductal gray (PAG). The MRF injections produced the same degree of circling and asymmetry as the DLSC injections. The PAG injections resulted in significantly lower amounts of circling than the DLSC GABA injections, but they resulted in equivalent measures of asymmetry. These results demonstrate that DLSC GABA produces circling and asymmetry, and suggest that the DLSC as well as the MRF serve as output stations for the expression of circling behavior initiated at the striatum.

Tyrosine hydroxylase-immunoreactive boutons in synaptic contact with identified striatonigral neurons, with particular reference to dendritic spines

Tyrosine hydroxylase-immunoreactive fibres in the rat neostriatum were studied in the electron microscope in order to determine the nature of the contacts they make with other neural elements. The larger varicose parts of such fibres contained relatively few vesicles and rarely displayed synaptic membrane specializations; however, thinner parts of axons (0.1-0.4 micron) contained many vesicles and had symmetrical membrane specializations, indicative of en passant type synapses. By far the most common postsynaptic targets of tyrosine hydroxylase-immunoreactive boutons were dendritic spines and shafts, although neuronal cell bodies and axon initial segments also received such input. Six striatonigral neurons in the ventral striatum were identified by retrograde labelling with horseradish peroxidase and their dendritic processes were revealed by Golgi impregnation using the section-Golgi procedure. The same sections were also developed to reveal tyrosine hydroxylase immunoreactivity and so we were able to study immunoreactive boutons in contact with the Golgi-impregnated striatonigral neurons. Each of the 280 immunoreactive boutons examined in the electron microscope displayed symmetrical synaptic membrane specializations: 59% of the boutons were in synaptic contact with the dendritic spines, 35% with the dendritic shafts and 6% with the cell bodies of striatonigral neurons. The dendritic spines of striatonigral neurons that received input from immunoreactive boutons invariably also received input, usually more distally, from unstained boutons that formed asymmetrical synaptic specializations. A study of 87 spines along the dendrites of an identified striatonigral neuron showed that the most common type of synaptic input was from an individual unstained bouton making asymmetrical synaptic contact (53%), while 39% of the spines received one asymmetrical synapse and one symmetrical immunoreactive synapse. It is proposed that the spatial distribution of presumed dopaminergic terminals in synaptic contact with different parts of striatonigral neurons has important functional implications. Those synapses on the cell body and proximal dendritic shafts might mediate a relatively non-selective inhibition. In contrast, the major dopaminergic input that occurs on the necks of dendritic spines is likely to be highly selective since it could prevent the excitatory input to the same spines from reaching the dendritic shaft. One of the main functions of dopamine released from nigrostriatal fibres might thus be to alter the pattern of firing of striatal output neurons by regulating their input.

Evidence for heterogeneous rotational responsiveness to apomorphine, 3-PPP and SKF 38393 in 6-hydroxydopamine-denervated rats

Several novel dopamine (DA) agonists (SKF 38393, 3-PPP, TL-99) have been reported to induce rotational behavior (RB) in rats unilaterally denervated of the nigro-striatal pathway by 6-hydroxydopamine. Other reports have indicated no RB, however, and these drugs do not cause other behavioral manifestations of postsynaptic DA agonism. In the present experiments, two groups of 6-hydroxydopamine-denervated rats were distinguished by their relative responsiveness to apomorphine-induced RB. A highly sensitive group showed maximal RB in response to doses as low as 0.03 mg/kg, while a less sensitive group exhibited comparable RB only in response to 15- to 20-fold higher doses. The high sensitivity group exhibited RB in response to SKF 38393, 3-PPP and pergolide, but the low sensitivity group did not show appreciable RB after these drugs, even at doses 50 to 100-fold higher. Haloperidol markedly attenuated apomorphine-induced RB in the low sensitivity subgroup, but only reduced by approximately one-half the number of turns induced by apomorphine or SKF 38393 in the high sensitivity group. The atypical antipsychotics, clozapine and RMI 81582, and the muscle relaxant, methocarbamol, reduced RB in all groups, but only at doses that caused performance impairment in a rotorod test. These results appear to reflect qualitative differences in responsiveness to different DA agonists. Behavioral preselection of 6-hydroxydopamine-denervated animals is necessary to achieve consistent pharmacological results with the 6-hydroxydopamine RB model.

GABAergic mechanisms in mediating muscular rigidity, catalepsy and postural asymmetry in rats: Differences between dorsal and ventral striatum

In rats, the GABAergic agonist muscimol was injected unilaterally either into the mid ventroposterior striatum (ventral striatum) or into the mid dorsoposterior striatum (dorsal striatum), and the following parameters were estimated: (1) a tonic activity in the electromyogram (EMG) recorded from the gastrocnemius-soleus (GS) muscle, which appears to reflect a muscular rigidity; (2) catalepsy, and (3) asymmetries in posture. Injection of muscimol (25 or 50 ng) into the ventral striatum produced tonic EMG activity, catalepsy and ipsiversive posture; these signs were much less pronounced or not observed after injections into the dorsal striatum. Co-administration of bicuculline (500 ng) into the ventral striatum, or simultaneous injection of muscimol (25 ng) into the substantia nigra pars reticulata (SNR), antagonized both the tonic EMG activity and the catalepsy produced by injection of 50 ng muscimol into the ventral striatum. These results seem to support the assumption that all 3 symptoms mentioned can be produced by an inhibition of striatonigral GABAergic neurones. These symptoms are probably due to a disinhibition of nigrofugal neurones, originating in the SNR.

Effect of GM1 ganglioside treatment on the recovery of dopaminergic nigro-striatal neurons after different types of lesion

The effect of GM1 ganglioside treatment on the recovery of biochemical and behavioral parameters which define the activity of nigro-striatal dopaminergic systems has been investigated in rats after different types of lesion. GM1 favours the recovery of tyrosine-hydroxylase activity, of the number and affinity of 3H-N-n-propyl-norapomorphine binding sites in the striatum of the lesioned side and reduces the apomorphine-induced rotational behavior after mechanical (i.e. unilateral hemitransection) but not after chemical (i.e. 6-OHDA injected in the substantia nigra) lesion. The source of regrowing dopaminergic nerve terminals in the striatum after hemitransection is mainly a response of intact remaining axons of the ipsilateral side. Moreover the contralateral nigro-striatal systems seems to play, through intrathalamic connections, an important role in regulating the GM1-induced increase of the tyrosine-hydroxylase activity.

Non-dopaminergic neurones of the reticular part of substantia nigra can gate static fusimotor action onto flexors in cat

The effect on the fusimotor system of electrical stimulation of the reticular part of the substantia nigra or of the injection of the gamma-aminobutyric acid (GABA)-antagonist picrotoxin into this structure was studied in spindle receptors of pretibial flexors in cats anaesthetized with ketamine. Afferent activity of muscle spindle primary endings was recorded before and during these two forms of intranigral stimulation. Dynamic spindle sensitivity was assessed during both small- (100 microns) and large-amplitude (2 mm) sinusoidal stretching of the receptor-bearing muscles. From changes in spindle sensitivity after nigral electrical stimulation (eleven out of fourteen primary endings) or intranigral injection of picrotoxin (fifty-one out of sixty-seven primary endings) it is deduced that functional activation of neurones of the reticular part of substantia nigra, in this preparation, removed a normally present tonic static fusimotor action from the primary sensory endings of pretibial flexor muscle spindles. This effect, induced by picrotoxin (2 micrograms in 1 microliter), was reversed by a subsequent intranigral injection of the GABA-agonist muscimol (0.4 microgram in 1 microliters), but remained unchanged after subsequent intracaudate injections of haloperidol (12.5 micrograms in 5 microliters) or apomorphine (5 micrograms in 5 microliters). It is concluded that the C.N.S. can gate static fusimotor action onto flexor muscle spindle primary endings through non-dopaminergic output neurones of the reticular part of substantia nigra.

L-pyroglutamate: an alternate neurotoxin for a rodent model of Huntington's disease

Intrastriatal injections of L-Pyroglutamate (L-PGA) in mice produced behavioral and neuropathological effects that resemble in part the kainate-injected rat striatal model of Huntington's Disease (HD). The behavioral responses induced after unilateral injections of L-PGA included circling, postural asymmetry of head and trunk and possible dyskinesias. The neuropil in the injected striatum contained dilated profiles, degenerating neurons and oligodendroglia, and numerous phagocytic microglial-like cells. A dose response relation existed. The size of the lesion (expressed as a percent volume of the striatum destroyed) ranged from 1 +/- 0.18% at 0.02 mumoles to 20.2 +/- 3.97% at 200 mumoles L-PGA (pH = 7.3). L-PGA is a weak neurotoxin when compared to kainic acid. Several factors raise interest in the possible role of L-PGA in HD, including the recently reported elevated plasma levels of L-PGA in some HD patients, and these considered in the discussion.

Characterization of pallidonigral neurons in the rat by a combination of Golgi impregnation and retrograde transport of horseradish peroxidase: their monosynaptic input from the neostriatum

After injection of horseradish peroxidase, or its conjugate with wheatgerm agglutinin, into the substantia nigra of rats, retrogradely labelled cells were found in the globus pallidus. Forty-six of these neurons were also impregnated by the Golgi procedure and then gold-toned: their somata ranged from 15 to 30 microns in diameter and these pallidonigral neurons had from two to five primary dendrites that were long and smooth, that branched infrequently and that bore occasional spines on their distal regions. Most of the neurons studied came from the lateral part of the globus pallidus. At the ultrastructural level, the identified pallidonigral neurons were found to have deeply infolded nuclei and an abundant cytoplasm; their perikarya were richly innervated by two distinct types of bouton, both of which formed symmetrical synaptic contacts. The dendrites of pallidonigral neurons were ensheathed in boutons, the majority forming symmetrical synaptic contacts. After placement of electrolytic lesions in the rostro-dorsal neostriatum, degenerating boutons were found in symmetrical synaptic contact with the cell bodies and dendrites of six identified pallidonigral neurons. It is concluded that pallidonigral neurons belong to the Golgi category of large pallidal neurons with smooth dendrites and that they receive monosynaptic input from the neostriatum. Thus, in addition to the direct striatonigral pathway, the neostriatum can influence the substantia nigra by a monosynaptic relay through the globus pallidus, which might allow other pallidal afferents to influence the transfer of information from neostriatum to substantia nigra.