Different recovery of a skilled movement after destruction of the caudate nucleus in rats with right- or left-forelimb preference]

Recovery of the motor skill of taking a sunflower seed from a tube after the electrolytic destruction of the caudate nucleus was studied in Wistar rats with left- (n = 27) and right-forelimb (n = 22) preference. The reaching performance was divided in 5 stages. The first two stages characterize the emotional condition of an animal, the following three were immediately related with the skilled movement. After preliminary testing, the head of the caudate nucleus contralateral to the preferred limb was electrolytically damaged. After surgery, rats were tested during 20 weeks, and in every test the following indices were measured: percent of rats which perform the movement characteristic for the given stage, stage duration, depth of reaching a flower seed from the tube, time necessary to obtain the best results etc. It was found that at the "emotional" stages, higher percent of the right-handed animals perform the characteristic movements, but they spend more time to complete these stages than the left-handed rats. In rats with the left-limb dominance the recovery of the specialized movement is positively correlated with the time of the recovery onset at all the stages, while there is no such correlation in rats with right-limb dominance. Both groups of animals reach the same depth of the tube in the course of recovery, but the left-handed rats attain these results later and gradually, while the right-handed animals attain the maximal extent of recovery spontaneously and earlier than left-handed ones.     

Phenylalanine in the caudate nucleus of dopamine depleted rats

Dopamine depleting lesions of the substantia nigra result in a reduction of the striatal accumulation of 2-phenylethylamine following monoamine oxidase inhibition. It is established that this effect may not be due to a change in availability of aromaticL-amino acid decarboxylase in striatum. Nevertheless, the possibility remains that striatal concentrations of phenylalanine (the precursor of 2-phenylethylamine) may be altered by dopamine-depleting lesions. The present experiments assessed the effects of dopamine depletion induced by 6-OHDA (7 days following 8 g/4 l unilateral substantia nigra injection) on striatal concentrations of phenylalanine, dopamine, 5-hydroxytryptamine and their metabolites. In addition, the effects of reserpine-induced (10 mg kg^–1, 2h, sc) amine depletion on these striatal levels were also assessed. Under equivalent conditions reserpine is reported to increase striatal accumulationof 2-phenylethylamine. 6-OHDA induced a significant unilateral depletion of dopamine, DOPAC and HVA and increased 5-HIAA but had no significant effect on phenylalanine levels. Reserpine decreased dopamine and 5-hydroxytryptamine and increased DOPAC, HVA and 5-HIAA levels, no changes in phenylalanine were observed. This pattern of results was also observed when lesioned animals or reserpine-treated animals were pretreated with (-)-deprenyl (2 mg kg^–1, 2 hr, sc), the treatment previously used to induce accumulation of 2-phenylethylamine. These data indicate that changes in 2-phenylethylamine previously observed under these conditions may not simply be secondary to a change in striatal phenylalanine concentrations.     

Effects of nucleus accumbens lesions in rats on spatial preference in an open field

Selective lesions placed in three different regions of the nucleus accumbens were performed to assess their effects on spatial preference in the rat. Histological verification allowed to establish three groups of lesioned animals: medial, intermediate and lateral. Sham operations involved all procedures except the passing of a current. All animals were tested once prior to operation and twice postoperatively. Sherman's directionality score (DS) was adopted. Positive values indicate right side preference and negative ones leftward bias. Statistical analysis revealed that rats used in this study showed a nonsignificant spontaneous right side preference in the open field (DS = +0.08). Medial and intermediate lesions increased the right side bias (DS = +0.37), whereas lateral lesioned animals reversed their preoperative rightward bias and showed a significant left side preference (DS = -0.48). These results suggest a participation of the nucleus accumbens in spatial preference and are considered to be due to the well known uneven distribution of the afferent and efferent fiber systems within the nucleus.     

Dopamine-sensitive adenylate cyclase of the caudate nucleus of rats treated with morphine.

The addition of narcotic analgesics $\text{in vitro}$ to nerve ending preparations from rat caudate nucleus in an assay of adenylate cyclase activity (AC) resulted in an inhibition of basal AC only at drug concentrations of 10−⁴M or higher, and no inhibition of dopamine-stimulated (DA) AC at these drug concentrations. The acute administration of morphine at a moderately high dose (60 mg/kg) produced an increase in striatal cAMP levels, and increases in basal and DA-AC in caudate nerve-endings. In morphine-tolerant rats, striatal cAMP levels and basal AC were similar to control values, while DA-AC was elevated. These results suggest: (1) that opiates do not act directly on DA-AC, the ‘dopamine receptor’, and (2) that the observed behavioural DA sensitivity in tolerant animals may be produced by the DA-AC supersensitivity.     

Connections of various fields of the parietal cortex with the caudate nucleus of the cat brain

By means of the light and electron microscopy methods efferent connections of the fields 5a, 5b and 7 with the caudate nucleus have been studied. These fields are predominantly projected to the dorsolateral corner of the middle and posterior head of the caudate nucleus. The fields 5b and 7, unlike the field 5a, give also origin to the fibers, terminating in the central part of the head and in the caudate nucleus body. The electron microscopic investigation proves the monosynaptic nature of the fields 5a, 5b and 7 with the dorsolateral part of the middle and posterior parts of the caudate nucleus head. The parietal cortex gives origin, mainly, to fine myelin fibers (0.665 +/- 0.029), terminating in the part mentioned of the caudate nucleus. These fibers form small terminals (0.310 +/- 0.014 to 0.430 +/- 0.020 mcm) with asymmetrical membranous thickening; these terminals end on the spines (with a poorly expressed spine apparatus) of the dendrites, evidently, of the middle spine cells. Axonal terminals of the parietal cortex form axodendritic terminals extremely seldom. Axospinous synapses on the dendrites of the middle spine cells, situating in the dorsolateral part of the caudate nucleus head are supposed to be a morphological substrate, ensuring the cortical control of the parietal cortex at the level of the caudate nucleus.     

Nociceptin differentially affects morphine-induced dopamine release from the nucleus accumbens and nucleus caudate in rats

The effects induced by nociceptin on morphine-induced release of dopamine (DA), 3,4-dihydroxyphenilacetic acid (DOPAC) and homovanillic acid (HVA) in the nucleus accumbens and nucleus caudate were studied in rats by microdialysis with electrochemical detection. Nociceptin administered intracerebroventricularly (i.c.v.) at doses of 2, 5 and 10 nmol/rat changed neither DA nor metabolites release in the shell of the nucleus accumbens or in the nucleus caudate. Morphine administered intraperitoneally (i.p.) (2, 5, and 10 mg/kg) increased DA and metabolites release more in the shell of the nucleus accumbens than in the nucleus caudate. When nociceptin (5 or 10 nmol) was administered 15 min before morphine (5 or 10 mg/kg), it significantly reduced morphine-induced DA and metabolites release in the shell of the nucleus accumbens, whereas only a slight, nonsignificant reduction was observed in the nucleus caudate. Our data indicate that nociceptin may regulate the stimulating action associated with morphine-induced DA release more in the nucleus accumbens than in the nucleus caudate, and are consistent with recent observations that nociceptin reversed ethanol- and morphine-induced conditioned place preference. Therefore, the nociceptin-induced reduction of DA release stimulated by morphine in the nucleus accumbens, and the results obtained with nociceptin in the conditioned place preference procedure suggest a role for nociceptin in the modulation of the behavioral and neurochemical effects of abuse drugs.     

Recovery of motor skills after the caudate lesion in rats with the different prefered forelimb: the role of intense retraining

Rats were trained for instrumental reaching (17 mm) of a sunflower seed from a horizontal tube 12 mm in diameter. After training, rats were divided into groups, "right-" and "left-handers", by the forelimb preference. Unilateral electrolytic lesions of the head of the caudate nucleus contralateral to the prefered forelimb were performed. After surgery, animals were retrained to perform the food-retrieval reaction by the same forelimb (reaching reaction by the "intact" forelimb was prohibited by a special bracelet). Both right- and left-handers were divided into groups of rare and intense retraining. Over the course of five months, animals of the groups of rare training were tested once a week, whereas the intense retraining was performed three or four times a week. Rats with right and left forelimb preference were shown to recover the reaching skill with different rates. In general, animals with left-side caudate lesion (right-handers) recovered the skill better both under condition of spontaneous recovery (rare testing) and intense retraining. The results suggest different mechanism of skill recovery after the right- and left-side brain lesion.     

Different role of various regions of the caudate nucleus in phenamine-induced stereotyped behavior in cats

Electrolytic ablation of the ventral parts of the cat caudate nucleus head results in an increase of frequency and disorganization of the pattern of the stereotype head turnings, induced by large doses of amphetamine. Lesion of the dorsal parts, on the other hand, is attended with a decreased number and limited manifestation of stereotype movements. A similar effect appears following a low frequency electrical stimulation of the nucleus ventral part. The disrupting action of neuroleptic haloperidol on the amphetamine-induced stereotype is weakened in animals with ventral lesions and enhanced in those with dorsal lesions. Due to dopaminergic activity, the amphetamine, apparently, produces a functional unbalance between different zones of the caudate nucleus, which underlies stereotype behaviour.     

Monoaminergic influences of the caudate nucleus on conditioned food-getting reactions in rats]

Influence of microinjections of monoamines and glutamic acid into the caudate nucleus head on conditioned food-procuring reaction was studied in experiments on rats. Dopamine, noradrenaline and glutamic acid prolong the latency of the reflex, while serotonin reduces it. However, all the drugs tested reduce the number of conditioned food-procuring movements. The effects of dopamine are achieved through neurone receptors of the caudate nucleus which are sensitive to haloperidol and chlorpromazine; effects of serotonin are mediated through the D-serotoninoreactive systems, and those of noradrenaline, through the alpha-adrenoreactive systems of the neostriatum neurones. The inhibitory effect of glutamic acid is not due to the action on the serotonino-, adreno-, or dopamine receptors of caudate units.     

Neuronal response to sensory stimulation in the cat caudate nucleus

Neuronal response in the caudate nucleus to presentation of a wide variety of visual and other sensory stimuli was investigated in waking cats. Pronounced discrepancies in background activity of unknown origin as well as differing neuronal activity level were noted in adjacent sections of the nucleus. Of the neurons from which readings of response to sensory stimulation could be made, some reacted to presentation of exclusively visual and others to tactile stimuli; a third group responded to a combination of visual and somatic stimulation only. Response could only be produced in cells of all types by a high level of activity in the animal. Visual stimuli attracting the animal's interest proved to be the most effective form of stimulation. Ipsi- and contralateral sides of the animal's body were both represented in the caudate nucleus of each hemisphere. Neuronal response in the caudate nucleus may be compared with that produced by application of similar stimuli in cells belonging to different cortical areas.Institute for Research on Information Transmission, Academy of Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 22, No. 1, pp. 3–10, January–February, 1990.     

Role of the caudate nucleus head in delayed spatial preference and differentiation of trace reflexes in Macaca mulatta

Using phase-correlation analysis, electrical stimulation and pharmacological treatment (Benactyzine), changes in functional importance of the head of n. caudatus have been observed which were related to regulation needs for the delayed spatial preference and differentiation of temporal reflexes. Structural elements of any morpho-functional system are not determined constantly by one and the same functional importance. They may change their functional quality with respect to changes in experimental situation.