Involvement of the nucleus accumbens in immune response stimulation following activation of opioid mu-receptors by DAGO

The data obtained suggest that the agonist of the nucleus accumbens' mu-opioid receptor DAGO significantly increases the number of plaque- and rosette-forming cells following immunisation with sheep red blood cells in sham-operated Wistar rats. Bilateral destruction of the n. accumbens inhibited the immune response.     

Contribution of D2 dopamine receptors of the rat dorsolateral caudate nucleus to immunomodulation

The analysis of the immune response changes in Wistar rats under activation or blockade of D2 DA receptors has shown that electrolytic lesion of the dorsolateral caudate nucleus characterized by a high density of D2 DA receptors resulted in a decrease of the immune response to SRBC. At the same time, in rats with similar lesion stimulation of the immune reactions caused by a selective D2 agonist guinpirol (1.0 mg/kg) did not develop completely. Administration of haloperidol (2.0 mg/kg), the immune-inhibitory effect of which is associated with increasing serotoninergic system activity, to rats with impaired dorso-lateral caudate nucleus did not produce more expressed immunosuppression. However, the level of the immune response in sham-operated rats receiving haloperidol was significantly lower than that of animal with the destructed nucleus caudatus. Considering that qunmpirol-induced immunostimulation is related to the selective activation of the DA-ergic brain system, it is concluded that D2 DA receptors of the nucleus caudatus are involved in the mechanisms of immunostimulation, although D2 DA receptors of other brain structures may also impact this process.     

Effect of the destruction and activation of the caudate nuclei on the convulsive action of corazol kindling

Chronic experiments on the rats have shown that the pharmacological destruction of caudate nuclei significantly elevates the general brain excitation and induces rapid development of the corazol kindling. The hippocampal destruction exerts an opposite effect. Regression analysis of this processes has shown that mechanism of the general brain excitation and those of epileptogenesis are different on the stage of the developing kindling. Caudate nucleus activation induces powerful inhibition of kindling behavioral convulsive reactions and its electrographic epileptic activity. These data suggest that the caudate nucleus is a significant structure of the antiepileptic brain system and confirm G. N. Kryzhanovsky's concept about the system-antisystem interrelationship in case of neuropathologic syndromes as a result of the system hyperactivity.     

Effect of destruction of the hippocampus and caudate nucleus on the development of epileptic activity during corazole kindling

Experiments were carried out on random-bred white rats (250-350 g). Kindling was induced by daily intraperitoneal corazol injections in subthreshold (subconvulsive) doses (30 mg/kg). It has been demonstrated that bilateral hippocampal destruction did not change the seizure threshold, while bilateral caudate nucleus destruction lowered it. Hippocampal destruction delayed corazol kindling development and also accelerated the lowering of seizure susceptibility after corazol injections were discontinued, as compared to control animals. Caudate nucleus destruction induced more marked seizure reactions in the first 14 days after corazol injections were started. There were no significant differences in seizure manifestation severity in kindled and control groups. These data point to an essential role of caudate nucleus as an element of antiepileptic system and support the concept that hippocampus plays a role of pathologic determinant which is associated with the formation of an epileptic system underlying corazol kindling.     

Efferent connections of the caudate nucleus in cats

Structural and ultrastructural changes in the frontal areas of the cortex and in the region of the globus pallidus were investigated after local and extensive destruction of the caudate nucleus. It was shown by the Fink-Heimer method that after local injury to the caudate nucleus by means of electrodes implanted 2–16 months before electrolytic destruction, only a few degenerating fibers of medium and thin caliber were present. Extensive destruction of the caudate nucleus (without preimplantation of electrodes) was followed by massive degeneration of fibers of different caliber in the frontal area of the cortex. After local injury to the caudate nucleus numerous thin degenerating axons 0.5–0.6 µ in diameter and degenerating terminals were found in the region of the globus pallidus. Degenerative changes in the axo-dendritic and axo-somatic terminals followed the "dark" type of course. It is concluded that no considerable direct projections of neurons of the caudate nucleus are present in the cortex. Degenerating fibers of average caliber in frontal areas of the cortex after destruction of the caudate nucleus are evidently axons of thalamic neurons and not from cells of the damaged nucleus.A. A. Bogomol'ets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 7, No. 2, pp. 165–171, March–April, 1975.     

Change in phenamine stereotypy in cats after the electrical stimulation of the caudate nucleus

Two types of behavioral shifts occur in cats after cessation of repeated low-frequency stimulation of the caudate nucleus head. Behavioral depression originates more frequently from the dorsomedial part of the head whereas stimulation of the ventrolateral part induces the activation before depression. The number and pattern of stereotype movements are variously changed against the background of these shifts following administration of the minimal effective phenamine dose. Desorganization takes place after stimulation of the dorso-medial nucleus parts followed by stereotypy reduction or, on the contrary, by its enhancement in combination with caudate activation.     

Alimentary conditioned reflex behavior in the rat following injection of 6-hydroxydopamine into the caudate nucleus and nucleus accumbens

In Wistar rats with degenerated dopaminergic terminals of the caudate and accumbens nuclei (administration of 6-hydroxydopamine, 30 mcg, bilaterally), an alimentary conditioned reflex was elaborated in a T-maze. Degeneration of the caudate nucleus terminals disturbed the elaboration, while degeneration of N. accumbens terminals did not affect the learning.     

Structural and functional features of caudatocortical connections

Efferent connections of the caudate nucleus were studied experimentally in 13 cats after electrolytic destruction of various parts of it. Preparations were stained by the methods of Nauta, Knook, and Fink-Heimer. Direct caudatocortical connections with a definite topical organization were discovered: a ventrodorsal projection in the cortex corresponds to a rostrocaudal and ventrodorsal distribution of neurons in the caudate nucleus. Striatocortical fibers are few in number and very thin. Their predeterminals were found in both the deep and the superficial layers of the cortex on granule cells and pyramidal cells of different sizes. The results are in agreement with those of most of the recent physiological investigations indicating a close functional connection between the caudate nucleus and the cortex.     

Role of the caudate nucleus in the development of evoked synchronized activity

Synchronized activity (spindles, augmentation response) evoked by stimulation of thalamic nonspecific, association, and specific nuclei was investigated in chronic experiments on 11 cats before and after successive destruction of the caudate nuclei. After destruction of the caudate nuclei the duration of spindle activity in the frontal cortex and subcortical formations (thalamic nuclei, globus pallidus, putamen) was reduced to only three or four oscillations. In the subcortical nuclei its amplitude fell significantly (by 50±10%); in the cortex the decrease in amplitude was smaller and in some cases was not significant. Different changes were observed in the amplitude of the augmentation response, depending on where it was recorded. In the subcortical formations it was considerably and persistently reduced (by 50±10%); in the cortex these changes were unstable in character. Unilateral destruction of the caudate nucleus inhibited synchronized activity evoked by stimulation of the thalamic nuclei on the side of the operation only. Destruction of the basal ganglia (caudate nucleus, globus pallidus, entopeduncular nucleus, and putamen) did not prevent the appearance of synchronized activity; just as after isolated destruction of the caudate nucleus, after this operation synchronized activity was simply reduced in duration and amplitude. It is suggested that the caudate nucleus exerts an ipsilateral facilitatory influence on the nonspecific system of the thalamus during the development of evoked synchronized activity.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 9, No. 3, pp. 239–248, May–June, 1977.     

Alpha-MSH injected into the substantia nigra or intraventricularly alters behavior and the striatal dopaminergic activity

Rats were injected with 1 μg of alpha-melanocyte stimulating hormone (α-MSH) into the third ventricle and locally in the ventral tegmental area and in different regions of the substantia nigra. The modifications produced on grooming behavior and locomotion as well as on the dopamine content of the nucleus accumbens and the caudate putamen, were studied. Both intraventricular peptide administration and microinjections into the ventral tegmental area induced excessive grooming and a significant increase of the locomotor activity. The dopamine content of the nucleus accumbens and caudate putamen was markedly reduced. Injections of the peptide into the substantia nigra pars compacta failed to induce excessive grooming but did provoke a slight increase in locomotor activity and a smaller change in caudate dopamine content than that observed by injections in the ventral tegmental area or in the third ventricle. Dopamine levels in the nucleus accumbens were not changed. Finally, the injections of α-MSH into the lateral substantia nigra did not produce either biochemical or behavioral changes.The results suggests that α-MSH can modify, directly or indirectly, the striatal dopaminergic activity and that the behavioral alterations observed such as excessive grooming, could be mediated by the activation of the dopamine cells from the ventral tegmental area, that in turn may provoke a significative release of dopamine at the caudate putamen nucleus as well as in nucleus accumbens.     

大鼠基底核心房肽mRNA的表达——原位杂交研究

采用原位杂交技术,研究大鼠基底核团细胞内是否存在ANPmRNA的基因表达,结果发现在尾壳核细胞内存在阳性反应产物,而苍白珠细胞内示见阳性反应。说明在尾壳核内存在ANP的基因表达及ANP的合成。实验结果为尾壳核产生分泌ANP提供了形态学依据。     

Influence of neurotensin on behavior of rats with lesions in serotonergic neurons

After serotonergic lesion by administration of 5,7-dihydroxytryptamine into the dorsalis raphe nucleus, effects of neurotensin microinjections into the caudate nucleus and substantia nigra on rat behavior were compared. Serotonergic lesions resulted in motivated excitement of rats manifested as an increase in the number of intersignal motor reactions during realization and, particularly, extinction of thirst conditioned reflex. Neurotensin microinjections into the caudate nucleus facilitated extinction of the conditioned reflex both in operated and control rats, but such microinjection into the substantia nigra facilitated this process only in operated animals. Neurotensin did not change conditioned reflex realization in both groups of animals but decreased emotional excitement of rats in the "open field". The behavioral effects of neurotensin in operated rats are connected with normalization of motivational and emotional states of animals and may be explained by recovery of interaction between the dopamine- and serotonergic systems. It is suggested that the mechanisms of this normalizing effects of neurotensin at the levels of the caudate nucleus and substantia nigra are different and are associated preferentially with its action either on dopamine- or serotonergic structures.     

Effect of opioid peptides on regional hemodynamics in waking rats

The hemodynamic effects of intravenously administered relatively selective mu-(DAGO) and delta-(DADL) opioid agonists were investigated in conscious rats. The radioactive microsphere technique was used to measure regional blood flow in 10 zones before and 5 min after bolus injection of each peptide. Both opioid agonists in a dose of 1 mumol/kg produced transient hypotension, bradycardia and apnoea. DADL injection increased blood flow in the adrenals and decreased it in the muscles; vascular resistance spleen. DAGO administration increased blood flow in the adrenals and decreased it in the pancreas and skin, whereas vascular resistance increased in the pancreas and skin and decreased in the adrenals. Naloxone pretreatment diminished regional blood flow responses to DAGO. Regional hemodynamic changes after peptide administration are suggested to be connected with the activation of peripheral opiate receptors. High differentiation of regional vascular responses may be related to heterogeneous distribution of mu- and delta-opiate receptors in the body.     

Effect of aminazin and haloperidol on the content of glial fibrillar acid protein in the rat brain]

The immune-enzyme analysis was used to determine the quantity of glial fibrillar acid protein in the water-soluble extracts of frontal and limbic cortex, caudate nucleus, medulla oblongata of rats before and after administration of aminazin and haloperidol. The obtained results testify to a decrease of the protein content under the action of both neuroleptics only in the limbic brain cortex of rats.     

NPY-mRNA expressions in the nucleus accumbens,caudate putamen and cerebral cortex of apomorphine-susceptible and apomorphine-unsusceptible rats

Using the apomorphine-induced stereotyped gnawing response as a selection criterion, two distinct groups of rats can be distinguished, apomorphine-susceptible (APO-SUS) and apomorphine-unsusceptible (APO-UNSUS) rats. These two lines differ in several components of both striatal and extrastriatal areas. This study deals with the expression of neuropeptide Y (NPY)mRNA-expressing neurons in the nucleus accumbens, caudate putamen and cerebral cortex of both rat lines, using non-radioactive in situ hybridisation. The morphology of the neurons in the three regions is similar, viz. oblong, rectangular or triangular, with two or three processes. The neurons are homogeneously distributed in all regions, and in the nucleus accumbens they are particularly numerous ventrally to the anterior commissure. Using automated image analysis, the mean numerical density of NPYmRNA-positive neurons per brain region and the mean NPYmRNA expression level per neuron per brain region were determined. No differences appear in the numerical densities of NPYmRNA-containing neurons in the nucleus accumbens, caudate putamen and cortex between APO-SUS and APO-UNSUS rats. However, distinct differences between the rat lines are present in the level of NPYmRNA expression per neuron in the nucleus accumbens and in the caudate putamen, showing that NPY contributes to the differential neurochemical make-up of these rat lines that is responsible for their obvious differences in behaviour, physiology and immune competence.     

Effect of Intraventricular Putrescine on Adenosylmethionine Decarboxylase in Rat Hypothalamus and Caudate Nucleus

Effects of intracerebroventricularly injected putrescine on adenosylmethionine decarboxylase activity in rat hypothalamus and caudate nucleus were studied. Doses that lacked the capacity to produce behavioral and electrocortical epileptogenic disorder caused a significant activation of enzyme occurring between 10 and 15 min after injection. The changes in hypothalamic and caudate nucleus enzyme activity after putrescine administration were dose-dependent, and they supported the assumption that limiting putrescine concentration in vivo may play a role in adenosylmethionine decarboxylase regulation.     

The role of D1 and D2 dopamine receptors of the rat nucleus accumbens in immunostimulation

The analysis of the immune response changes in Wistar rats has shown that bilateral electrolytic lesions of the nucleus accumbens characterized by a high density of D1 an D2 dopamine (DA) receptors resulted in a decrease of the immune response to SRBC. Administration of selective agonists of D1 and D2 DA receptors to sham-operated animal: 20 mg/kg of SKF 38393 or 1.0 mg/kg of quinpirol, respectively, produced significant enhancement of plaque- and rosette-formation. However, the immune response level in the damaged rats did not increase following quinpirol administration, but was maintained at control values, rather. At the same time, activation of D1 DA receptors in rats with destructed nucleus accumbens did not affect the immune response level as compared to that of sham-operated animals receiving SKF 38393. The data obtained give evidence of involvement of D2 DA receptors of the nucleus accumbens in immunomodulation, although D2 DA receptors of other brain structures may also contribute to this process. D1 DA receptors of this localization seem not to play any important role in the immune response control.     

Unit responses of the cat caudate nucleus to cortical stimulation before and after destruction of nonspecific thalamic nuclei

Responses of caudate neurons to stimulation of the anterior sigmoid and various parts of the suprasylvian gyrus were studied in acute experiments on cats. The experiments consisted of two series: on animals with an intact thalamus and on animals after preliminary destruction of the nonspecific thalamic nuclei. Stimulation of all cortical areas tested in intact animals evoked complex multicomponent responses in caudate neurons with (or without) initial excitation, followed by a phase of inhibition and late activation. The latent periods of the initial responses to stimulation of all parts of the cortex were long and averaged 14.5–25.5 msec. Quantitative and qualitative differences were established in responses of the caudate neurons to stimulation of different parts of the cortex. Considerable convergence of cortical influences on neurons of the caudate nucleus was found. After destruction of the nonspecific thalamic nuclei all components of the complex response of the caudate neurons to cortical stimulation were preserved, and only the time course of late activation was modified.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 12, No. 5, pp. 464–471, September–October, 1980.     

Inhibitory effect of the amygdala on alimentary-conditioned reflexes in the dog

In experiments on dogs, changes of conditioned alimentary reflexes were studied under stimulation (50-100 mcA, 1, 40, 100 imp/s, 0.5 ms) of the basolateral area of amygdala before and after electrolytic ablation (5 mA, 60 s) of the head of the caudate nucleus. Stimulation of the amygdala, which elicited inhibition of conditioned secretory reflexes and prolongation of latencies in intact dogs leads to opposite - activating - influences after destruction of the caudate nucleus head. A conclusion is made on the participation of neurophysiological and neurochemical mechanisms of the caudate nucleus in transmission of inhibitory effects of the amygdala on alimentary conditioned reflexes.     

Role of the amygdala in the sedation induced by low doses of apomorphine

In the present study the role of amygdala in the antidepressant action of imipramine is discussed. An animal model of depression is induced, in rats, by systemic injection of low doses of apomorphine. Systemic administration of imipramine prevents, as already reported, apomorphine-induced sedation. The same effect is observed following intra-amygdaloid imipramine administration. On the contrary, local injection of imipramine in frontal cortex or caudate nucleus does not affect apomorphine-induced sedation.