Role of pars compacta of the substantia nigra in circling behavior

A novel black-hooded mutant rat (ci3) with spontaneous circling behavior but normal auditory and vestibular functions

Abnormal circling behavior in rodents is usually attributed to vestibular dysfunction. In rats, all circling mutants described previously have inner ear defects resulting in auditory and vestibular dysfunctions. Here, we describe a new mutant rat with abnormal spontaneous circling behavior but normal auditory and vestibular functions. The new circling mutant rat was discovered in progeny of an apparently normal black-hooded (BH) rat inbred line [BH.7A(LEW)/Won] and was termed ci3, because we recently found two other mutant circling rats (ci1 and ci2) in a Lewis (LEW) inbred rat strain. The ci3 mutant is characterized by circling behavior and locomotor hyperactivity, which occur in phases or bursts either spontaneously or in response to stress, e.g., when rats are transferred to a new environment. Video monitoring of undisturbed rats in their home cage during the light and dark periods showed that circling behavior is much more intense during the dark period, i.e., during the active phase of the animals. Most ci3 rats show a lateral preference in their rotational behavior, i.e., they either rotate to the left or to the right. Brainstem auditory evoked potential testing and different tests of vestibular function did not disclose any auditory or marked vestibular defects in ci3 rats. Furthermore, no morphological abnormalities were seen during histological examination of the cochlear and vestibular nuclei in the brainstem. Neurochemical determination of dopamine and dopamine metabolite levels in striatum, nucleus accumbens and substantia nigra showed that ci3 rats have a significant asymmetry in striatal dopamine in that dopamine levels were significantly lower in the hemisphere contralateral to the preferred direction of turning. Consistent with this finding, immunohistological examination of dopaminergic neurons in substantia nigra and ventral tegmental area yielded a significant laterality in the medial part of substantia nigra pars compacta with a lower density of tyrosine hydroxylase-positive neurons in the contralateral hemisphere of mutant circling rats, while no laterality was seen in unaffected rats of the background strain [BH.7A(LEW)/Won].Thus, the novel mutant ci3 rat exhibits several features which clearly differ from previously described circling rat or mouse mutants. The behavioral phenotype occurs in the absence of auditory or obvious vestibular defects and is most likely a consequence of lateralized abnormalities found in the nigrostriatal circuit. Apart from the use of ci3 rats for studying the functional lateralization of brain functions, the ci3 mutant may serve as a new model for movement disorders with abnormal lateralization.

Orphan neurones and amine excess: the functional neuropathology of Parkinsonism and neuropsychiatric disease

The aetiology and treatment of Parkinsonism is currently conceptualised within a dopamine (DA) deficiency-repletion framework. Loss of striatal DA is thought to cause motor impairment of which tremor, bradykinaesia and rigidity are prominent features. Repletion of deficient DA should at least minimise parkinsonian signs and symptoms. In Section 2, based on extensive pre-clinical and clinical findings, the instability of this approach to Parkinsonism is scrutinised as the existing negative findings challenging the DA deficiency hypothesis are reviewed and reinterpreted. In Section 3 it is suggested that Parkinsonism is due to a DA excess far from the striatum in the area of the posterior lateral hypothalamus (PLH) and the substantia nigra (SN). This unique area, around the diencephalon/mesencephalon border (DCMCB), is packed with many ascending and descending fibres which undergo functional transformation during degeneration, collectively labelled 'orphan neurones'. These malformed cells remain functional resulting in pathological release of transmitter and perpetual neurotoxicity. Orphan neurone formation is commonly observed in the PLH of animals and in man exhibiting Parkinsonism. The mechanism by which orphan neurones impair motor function is analogous to that seen in the diseased human heart. From this perspective, to conceptualise orphan neurones at the DCMCB as 'Time bombs in the brain' is neither fanciful nor unrealistic [E.M. Stricker, M.J. Zigmond, Comments on effects of nigro-striatal dopamine lesions, Appetite 5 (1984) 266-267] as the DA excess phenomenon demands a different therapeutic approach for the management of Parkinsonism. In Section 4 the focus is on this novel concept of treatment strategies by concentrating on non-invasive, pharmacological and surgical modification of functional orphan neurones as they affect adjacent systems. The Orphan neurone/DA excess hypothesis permits a more comprehensive and defendable interpretation of the interrelationship between Parkinsonism and schizophrenia and other related disorders.

Simple and configural association learning in rats with bilateral quisqualic acid lesions of the nucleus basalis magnocellularis

We hypothesized that bilateral quisqualic acid lesions of the nucleus basalis magnocellularis (NBM) in rats would impair configural but not simple association learning. In experiment 1, rats were tested in a negative patterning operant discrimination where they were food-reinforced for responding to a light or a tone (L+, T+) but not for responding to the configural stimulus consisting of the light and tone presented simultaneously (LT-). Consistent with our hypothesis, NBM-lesioned rats showed a transient but significant impairment, responding normally to L+ and T+ but responding more often to LT-, in addition to responding more often during the inter-trial interval (ITI) than controls. In experiment 2, rats were tested in a simple operant discrimination where rats were food-reinforced for responding to a light (L+) but not for responding to a tone (T-). Although NBM-lesioned rats again responded normally to L+ as predicted, NBM-lesioned rats were transiently impaired, making more T- responses and more ITI responses than controls. Together, these results suggest that the NBM is involved in both configural and simple association learning but that this involvement is limited to learning to withhold responding to non-reinforced contextual or discrete stimuli. Finally, rats from experiment 2 underwent extinction trials, where results showed no difference between NBM-lesioned and control groups, suggesting that the NBM is not involved in the extinction of conditioned responding to previously reinforced stimuli.

A video image analyzing system for open-field behavior in the rat focusing on behavioral asymmetries

A video image analyzing system is presented which measures turning behavior, thigmotactic scanning and locomotion in rats. The system works by analyzing digitized video images obtained by a black/white video camera. Turning behavior is expressed in different diameter classes and as partial or full turns. Thigmotactic scanning is expressed as distance or time locomoted with the left or right side of the body along one of the walls of the testing environment. Locomotion is measured as distance travelled and is expressed in meters. Examples for the application of these behavioral measures are given which include: the measurement of spontaneous or drug-dependent behavioral asymmetries after brain lesion (the unilateral 6-hydroxydopamine model), a unilateral peripheral manipulation (hemivibrissotomy), and the measurement of open-field behavior (spontaneous or drug-induced) in intact animals. Among others, these examples show that the analysis of thigmotactic scanning may provide an alternative behavioral measure, which may be especially useful in the study of functional asymmetries.

Spontaneous bodily rotations and direction of locomotion at different times after radio frequency lesions at sites in and near the substantia nigra

Rats were prepared with radio frequency lesions of the dorsolateral or ventromedial regions of the substantia nigra. Other rats were prepared as operated and unoperated controls for each type of lesion. Their behavior was evaluated in an open field at postoperative days 2, 7, 10, and 15. Three types of behavioral changes were observed over time: those noticeable for a brief period, i.e., a few days, after the lesion (rotational behavior), those lasting 7-10 days after the lesion (turning preferences) and those lasting through the end of the experiment that may be permanent (enhanced locomotion). The early effect of the medioventral lesions was pronounced contralateral rotation while the early effect of the dorsolateral lesion was ipsilateral rotation. This effect of the dorsal lateral lesions was reversed on test days 7 and 10. Lesion-induced turning changes associated with forward locomotion were observed on these two test days as well. By 15 days after surgery the only demonstrable effect of either lesion was enhanced locomotion. The results are discussed in terms of various theories of substantia nigra regulation of motor activities.

Amine accumulation in Parkinson's disease and other disorders

Amine accumulation in the axons of degenerating, amine-containing neurones is a natural component of neurone death in many species, including man. While it is becoming increasingly clear that this phenomenon may have functional significance in animal models of Parkinson's Disease, its potential importance in the clinical syndrome has been pretermitted. There are several reasons for this. Failure to sample tissue which contains accumulated amines, the masking of accumulation by adjacent depleted tissues and the degradation of accumulated amines in post-mortem tissues from Parkinsonian brains could account for the low incidence of detection of accumulation in this disorder. Increased levels of amines have been detected in the brains of patients with other conditions including cerebral infarction, Alzheimer's Disease and Huntington's Chorea. These increases have been attributed previously to enhanced aminergic activity, rather than a stage in the degenerative process, as our hypothesis suggests. In addition to the potential importance of amine accumulation in the pathophysiology of various clinical syndromes, a more thorough investigation of this phenomenon in animal models would seem essential since they are used routinely to both describe the basic principles of dopamine function and to evaluate therapeutic possibilities in Parkinson's Disease.

Further studies on the neurochemical specificity of 6-hydroxydopamine as compared to radiofrequency lesions

Despite the large volume of literature during the past 15 years addressing the problem concerning the neurochemical specificity of 6-hydroxydopamine (6-OHDA), there is still disagreement over this issue. While some claim that the catecholamine-specific effects of this drug can be maximized by controlling the dose injected, others claim that all doses of 6-OHDA produce non-specific damage (NSD), thereby contraindicating its use in experimental paradigms. In the present study, we examined the degree of neurochemical specificity of 6-OHDA by comparing the volume of proximal accumulation to that of NSD, produced by 6-OHDA (2 microliter of 8 micrograms/microliter) or radiofrequency (RF) lesions (60 degrees C for 50 s and 45 degrees C for 30 s), placed in the medial forebrain bundle. The volume of NSD and accumulation produced by 6-OHDA was significantly less than that produced by large RF lesions which had a similar effect on the gross behaviour of albino rats. Smaller RF lesions produced similar volumes of NSD but less amine accumulation than did 6-OHDA, and did so without affecting normal behaviour. The ratio of NSD to accumulation in 6-OHDA treated rats was 3/1, while large and small RF lesions produced a NSD/accumulation ratio of 15/1. The present study introduces a novel method of determining the degree of neurochemical specificity which can be achieved with 6-OHDA and reveals that it is several magnitudes more neurochemically specific than RF lesions.

Opposed locomotor asymmetries following lesions of the medial and lateral substantia nigra pars compacta or pars reticulata in the rat

In animals with lesions in the medial or lateral portions of the substantia nigra pars compacta (SNC) amphetamine produces circling in opposite directions. The present study examined the relationships between lesion site and the direction of circling using glyoxylic acid histofluorescence to visualize DA cells. Lesions were produced by 6-hydroxydopamine (2-6 micrograms) or 0.05% ascorbate injected into the SN. After lesions in the medial SNC, amphetamine caused rats to circle ipsiversive to the lesion while after lateral SNC lesions rats circled contraversively. When the lesion extended to the middle of the SNC, or deeper into the SN pars reticulata (SNR), the direction of circling was unpredictable. When the damage produced by the cannula track and ascorbate injection was in the lateral SNR animals circled ipsiversively while medial SNR damage led to contraversive circling. Thus the medial and lateral SN, and the pars compacta and pars reticulata, are functionally antagonistic. This four way division of the SN is consistent with the topographic mapping of SNC to striatum and striatum to SNR.

The amine accumulation-producing capacity of 6-hydroxydopamine and its neurochemical specificity

There was considerable research during the 1970's addressing the problem of the neurospecificity of 6-hydroxydopamine (6-OHDA). Despite the numerous attempts to define the criteria governing the use of this drug in experimental paradigms, some believed that specific damage to catecholamine (CA)-containing neurones could be achieved only by controlling the dose injected, while others claimed that the neurotoxic effect that this drug had on non-CA systems was so severe that it contraindicated its use experimentally. The issue still remains unresolved. In the present study, we examined the degree of neurochemical specificity produced by 6-OHDA or radiofrequency (RF) lesions by comparing the quantity of amine accumulation to the amount of physical damage at the lesion site (termed non-specific damage, NSD) which each technique produced. The volume of NSD produced by 6-OHDA (2 microliter of 8 micrograms/ul) was significantly less than that produced by large RF lesions (60 degrees C for 50 sec) both of which has a similar effect on the regulation of short term body weight. Both types of lesions produced similar quantities of amine accumulation. Smaller RF lesions (45 degrees C for 30 sec) produced the same amount of NSD as did 6-OHDA but significantly less amine accumulation and had no effect on body weight regulation. The ratio of NSD to amine accumulation in 6-OHDA treated rats was 3/1 while large and small RF lesions produced a NSD/accumulation ratio of 15/1. The present results reveal that the neurochemical specificity of 6-OHDA is several magnitudes greater than with RF lesions, when using the criteria as defined in the present experiment.(ABSTRACT TRUNCATED AT 250 WORDS)

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.

The role of the midbrain reticular formation in the expression of two opposing nigral denervation syndromes

The present study investigated the role of the midbrain reticular formation (MRF) in the expression of opposing locomotor asymmetries elicited from the medial and lateral substantia nigra pars compacta (SNC). It was found that unilateral MRF lesions produced ipsiversive circling that was potentiated by amphetamine. Lateral SNC lesions produced contraversive circling while medial SNC lesions caused ipsiversive circling. When SNC lesions were combined with MRF lesions animals circled ipsiversively as they did with MRF lesions alone regardless of whether the SNC lesion was in the medial or lateral part of the SNC. Taken together, the results are consistent with the notion that a striato-nigral-MRF system is an output path for circling derived from both the medial and lateral SNC.

Amine accumulation in behavioural pathology

When nigro-striatal and meso-cortical neurons degenerate there is a loss of dopamine in the terminal fields and an accumulation of amines in the axons of these systems as they traverse the hypothalamus through the medial forebrain bundle. Traditional lines of thought have attributed the occurrence of motor and consummatory deficits which occur after dopamine neuron degeneration to the loss of functional dopamine neurotransmitter in the terminal fields. However, we have hypothesized that hypothalamic amine accumulation represents an area of brain tissue where processes such as neurotransmitter release, ephaptic transmission or local axon swelling may be affecting adjacent neurons and may thereby participate in the production of behavioural deficits. There is a considerable amount of evidence from studies on both peripheral and central catecholamine-containing neurons indicating that when their axons degenerate a release of functional neurotransmitter can occur. Information from neuropharmacological studies indicates that several drugs which facilitate behavioural recovery from dopamine-depleting lesions may do so by affecting amine release or receptor sensitivity near areas of accumulation rather than depleted terminal fields. We conclude that amine accumulation is a component of dopamine neuron degeneration which should be considered when assessing the role of the central catecholamine systems in the control of various behavioural and physiological processes.

Reassessing morphine effects in cats: III. Responses of intact, caudate nuclei-lesioned and hemispherectomized animals following chronic administration and precipitated withdrawal

Behavioral response to low doses of morphine (2.0 to 3.0 mg/kg, IP) administered for up to 15 days, and responses to subsequent naloxone challenges, were measured in intact, unilaterally and bilaterally caudate-lesioned (acaudate) cats, and in hemispherectomized cats using a video time-sampling method. For all groups minor tolerance to posture and movement activation patterns was seen, with a reciprocal increase in motor relaxation, which was somewhat more marked for acaudate cats. In contrast to this weak tolerance, all cats showed strong, typical withdrawal manifestations at the beginning of abstinence and a "mini withdrawal" could still be precipitated 15-30 days later when morphine was no longer detectable in the blood. The cats with the unilateral lesions showed whole body turning toward the lesioned side after morphine and away from the lesioned side following naloxone. Only hemispherectomized and acaudate animals showed significant physical deterioration (e.g., weight loss, decreased activity). The comparisons between weak tolerance development versus strong physical dependence and the possible mechanisms involved in shifting the turning biases are discussed. The potential of the cat as a model for studying opiate effects is stressed.

The pontine substrate of circling behavior

Single or twin movable stimulating electrodes were implanted in 9 rats in order to investigate the pontine substrate of circling behavior. The region located between the caudal part of the interpeduncular nucleus and the fourth ventricle was examined. The electrodes were implanted 6 mm below the surface of the skull and subsequently moved down by steps of 0.13 or 0.16 mm. The stimulating current consisted of trains of cathodal rectangular pulses of constant intensity and width (100 microA and 0.1 ms respectively) and of variable frequency. The effectiveness of the stimulation in eliciting a circling reaction was inferred from a psychophysical determination of the pulse period required at each site in order for the animal to maintain a criterion rotation speed. In the average, 48 brain sites were investigated per animal. Stimulation of 166 out of a total of 387 sites elicited ipsiversive rotation. Depending on the coronal plane of implantation, the dorsal boundary of the circling substrate was located within the pedunculus cerebellaris superior or the floor of the substantia grisea centralis. In addition, the positive region extended 1.7-2 mm ventrally and 1.9 mm from the midline. The distribution of the positive sites seems to suggest that the circling substrate is a large bundle which runs sagittally through the medial part of the reticular formation.

Dopamine mediates ipsi- and contraversive circling elicited from the substantia nigra

It was found that ipsiversive and contraversive circling could be induced by imposed stimulation of the lateral and median portions of the substantia nigra pars compacta (SNC), respectively. Stimulation of more ventral sites in the substantia nigra (SN) did not elicit circling. Pimozide, a dopamine (DA) antagonist, dose dependently blocked both ipsiversive and contraversive circling induced by imposed stimulation of the SN, but did not alter circling elicited from the non-dopaminergic cerebral peduncle. However, amphetamine, a catecholamine agonist, did not facilitate stimulation-induced circling elicited from the SN possibly because it releases DA on both sides of the brain and thus fails to exaggerate the imbalance of activity produced by stimulation. Taken together these results suggest that DA is involved in SN mechanisms mediating both ipsiversive and contraversive stimulation induced circling and provide further evidence that the lateral SN may be functionally antagonistic to the medial SN.

Self-stimulation and circling reveal functional differences between medial and lateral substantia nigra

Functional differences between medial and lateral substantia nigra (SN) sites mediating intracranial self-stimulation (ICSS) and circling behaviours were explored. It was found that, for medial SN stimulation sites, D- and L-amphetamine (1 mg/kg) had equipotent, slightly facilitatory effects on ICSS rates while for lateral SN stimulation sites, D-amphetamine increased and L-amphetamine decreased ICSS rates. It is suggested that these effects may be due to medial and lateral dopamine cells having different sensitivities to amphetamine isomers. Imposed continuous stimulation of the ICSS sites induced contralateral circling from the medial SN placements and ipsilateral circling from the lateral SN placements. In rats receiving lesions through the ICSS electrode, D-amphetamine (2 mg/kg) induced ipsilateral circling following medial SN damage and contralateral circling after lateral SN damage. These results suggest that lateral and medial SN mechanisms of ICSS and circling differ, and that the lateral SN may be antagonistic to medial SN mechanisms involved in circling behaviour.

Functional validation of projection topography in the nigrostriatal dopamine system

Anatomical investigations have revealed that the nigrostriatal pathway is topographically organised. In two experiments, nigrostriatal topography was investigated with catecholamine specific procedures, using paradigms which reflect the functional activity of dopaminergic neurones. Data were analysed with the intention of discovering possible relationships between the mesencephalic location of stimulating electrodes or injection cannulae, the extent and location of dopamine histofluorescence depletion within the striatum, and the effects of amphetamine and apomorphine on rotational behaviour. In animals pretreated with 250 mg/kg alpha-methyl-p-tyrosine it was found that unilateral stimulation with medially-placed nigral electrodes produced maximal depletion of dopamine histofluorescence in anterior dorso-medial regions of the striatum, while laterally-located electrodes principally depleted posterior, ventro-lateral areas. In the second experiment, 2 micrograms of 6-hydroxydopamine in a volume of 0.5 microliter was injected unilaterally at varying loci within the ventral midbrain of animals pre-treated with desmethylimipramine (25 mg/kg). It was discovered that the lateral injection coordinate was significantly associated with both the extent and location of the depletion of dopamine-related fluorescence from the ipsilateral striatum. Rotational behaviour, induced by dopamine-agonists was related firstly, to the overall extent of dopamine depletion from the striatum, and secondly, the contraversive turning induced by apomorphine in particular was related to the dorsoventral coordinate of the mesencephalic 6-hydroxydopamine injection. The results provide functional validation for the pattern of topographical projection within the nigrostriatal dopaminergic system proposed on the basis of intracellular tracing techniques.

Study of the neural basis of circling behavior induced by L-dopa in lesioned entopeduncular cats

Experiments were carried out in cats bearing unilateral electrolytic lesion of the entopeduncular nucleus. The animals were tested for circling 1-2 weeks after surgery. Postoperatively the cats displayed transient spontaneous ipsiversive turning. The administration i.p. of L-DOPA (80 mg/kg) plus CarbiDOPA (30 mg/kg), suspended in 10% Tween 80, induced rotational behavior toward the lesioned side. This effect began about 26 min after drug administration and reached its maximum 40-110 min after the injection. Electrolytic lesions placed in the superior colliculus, strionigral pathway or pedunculopontine nucleus, contralateral to the lesioned entopeduncular nucleus did not modify the circling behavior induced by L-DOPA. Similar results were observed following unilateral lesion of the sensorimotor cortex or the VL thalamic nucleus. These results suggest that the circus movements induced by L-DOPA, in animals with unilateral lesion of the entopeduncular nucleus, is not mediated by the classic outflow of the striopallidal system.

Involvement of dopamine in circling responses to muscimol depends on intranigral site of injection

The intensity, direction and dopamine dependence of circling behaviour were determined following stereotaxic injections of 40 ng muscimol (in 0.2 microliter over 3 min) into different regions of the rat's substantia nigra (SN). Weak, haloperidol-sensitive ipsilateral postural or locomotor asymmetries were invariably obtained from the rostral SN zona compacta (SNC), whilst robust contraversive rotational behaviour was always initiated from the SN zona reticulata (SNR) and caudal SNC. This was most rapid from the central SNR and was markedly attenuated by i.p. pretreatment with haloperidol (0.1 mg/kg) or pimozide (0.25 mg/kg), or by week-old 6-OHDA lesions of the nigrostriatal dopamine (DA) tract. Turning was significantly weaker from the lateral and ventral areas of the SNR, where it was not susceptible to DAergic blockade. Lower circling rates were also obtained if the SNR injections were made rapidly (in 30 sec), in a large volume (0.5 microliter) or at a supramaximal dose level (400 ng), possibly due to increased spread of the drug to remote neurones having an opposite effect on directional behaviour, or to exaggerated stereotypy. The variable action of muscimol at multiple sites in the SN is suggested to account for the earlier conflicting data in the literature.

Dopaminergic agonists differentially affect open-field activity of rats with A10 lesions

Dopaminergic systems appear to exert considerable control over locomotor activity. Although dopamine neurons are located in relatively close proximity within the mesencephalon, their axons project to more diffuse areas, perhaps reflecting some underlying heterogeneity in their function. The purpose of this study was to determine whether dopamine agonists differentially affect activity by acting upon distinct dopamine systems. Bilateral radio-frequency lesions of area A10 in rats failed to affect spontaneous open-field behavior over a 1-month postoperative period. When injected with 1 mg/kg of apomorphine, however, experimental rats more than doubled their activity as compared to the response of sham-operated controls. In contrast, no difference between the two groups of animals was observed in terms of increased activity following 3 mg/kg of either d-amphetamine or methylphenidate. These results are consistent with previous work indicating the involvement of ventromedial mesencephalic dopamine somata in the control of locomotor activity. The data suggest, however, that systems in addition to the dopaminergic mesolimbic projection are responsible, in part, for the hyperactivity elicited by d-amphetamine or methylphenidate.

Unilateral 5,7-dihydroxytryptamine lesions of the dorsal raphe nucleus (DRN) and rat rotational behaviour

A unilateral lesion in the dorsal raphe nucleus (DRN) resulted in a decreased concentration of 5-hydroxytryptamine (5-HT) in the ipsilateral striatum (CS), anterior cortex and substantia nigra (SN), a loss of [3H]5-HT uptake sites in the cortex and striatum and a selective reduction in 5-HT turnover in the substantia nigra. The directly acting 5-HT agonist 5-methoxy-N,N-dimethyltryptamine induced contralateral turning behaviour in the lesioned animals, whilst the 5-HT releasing agent, p-chloroamphetamine, induced ipsilateral rotation. All rotational behaviour was blocked by haloperidol and the turning behaviour in response to 5-MeODMT was blocked by methysergide. The data presented suggest that the DRN innervates the SN and CS differentially and that nigral 5-HT receptors become supersensitive after denervation of the DRN-SN pathway.

Enhanced suppression of a conditioned avoidance response by haloperidol but not phenoxybenzamine in rats with bilateral parafascicular lesions

Male rats were subject to bilateral lesions in the parafascicular nucleus (PF) of the thalamus. The lesions had little or no effect on the performance of a pre-operatively acquired conditioned avoidance response. However, the PF lesioned animals displayed an enhanced response to the dopamine receptor blocking agents haloperidol or pimozide but not to the noradrenaline receptor blocking agent phenoxybenzamine. The results indicate that intralaminar thalamic nuclei and dopaminergic extrapyramidal motor pathways are functionally connected.

Pars compacta of the substantia nigra modulates motor activity but is not involved importantly in regulating food and water intake

Precise, bilateral radio-frequency lesions of pars compacta of the substantia nigra in rats resulted in the immediate and sustained appearance of hyperactivity, but such lesions did not produce significant alterations in food or water intake. These behavioral effects were correlated with considerable, histochemically assessed loss of dopamine terminals in the caudate-putamen complex, but dopamine innervation in nucleus accumbens and other forebrain areas was only slightly affected. The magnitude of motor activity increase was positively correlated with the degree of pars compacta involvement. Animals with lesions in the median raphe and adjacent reticular formation also displayed chronic hyperactivity. In contrast to rats receiving discrete radio-frequency lesions of pars compacta, animals with bilateral mesencephalic ablations produced by 6-hydroxydopamine (6-OHDA, 8 micrograms/4 microliters or 4 micrograms/2 microliters in combination with desipramine pretreatment) displayed poverty of movement. Furthermore, significant, dose-dependent decrements in food and water intake were seen after 6-OHDA. The nonselective component of such lesions was frequently large and irregular in shape. Occasional ablations produced by this neurotoxin, however, appeared more selective in that damage was confined primarily to pars compacta. Nonetheless, the best correlate of aphagia and adipsia associated with 6-OHDA treatment was lesion size, regardless of the extent of pars compacta or other nigral involvement. We conclude that aphagia and adipsia concomitant to 6-OHDA lesions of the substantia nigra results from the incidental destruction of extra-nigral systems. Virtually complete, but precise, lesions of pars compacta do not produce aphagia and adipsia. While our results are consistent with the notion that the substantia nigra serves an important role in the regulation of motor activity, they provide no support for the conjecture that it is importantly involved in mediating ingestive behaviors.