Neurochemical mechanisms of the inhibitory influence of the hippocampus on the conditioned food-getting reaction in rats]

A study was made of the influence of microinjections of dopamine, noradrenaline, serotonin and glutamic acid into the dorsal hippocampus on the food-procuring conditioned reaction of rats. All the examined drugs lengthen the latency of the conditioned alimentary reaction. However, the number of pushes of the door leading to the feeding through and the magnitude of the reflex are increased by catecholamines and glutamic acid, but reduced by serotonin. The dopamine effects are achieved through archicortex neurones receptors, sensitive to haloperidol, the noradrenaline effects, through alpha-adrenoreactive, and of serotonin, through M-serotoninsensitive structures of the hippocampal neuronal systems. The modulating influence of glutamic acid on the food-procuring conditioned reaction is not connected with the active on dopamine-, adreno or serotonin neuronal receptors of the rat dorsal hippocampus.     

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.     

Differences in hypothalamic monoaminergic mechanisms in heterogeneous conditioned reflexes in rats

Monoamines and aminoacids were microinjected in the middle medial hypothalamus of rats following the elaboration of conditioned food-procuring or avoidance reflexes. The glutamine acid had no effect on the avoidance reflex (AR), but stimulated the motor activity and the food-procuring reflex (FR), shortening its latencies, increasing the number of the conditioned food-procuring movements and the reflex size. Dopamine decreased the motor activity, but did not influence the AR latencies, whereas norepinephrine prolonged the AR latencies without changing the motor activity. Both catecholamines, while having no effect on the muscle tone, suppressed FR, prolonging the latencies and decreasing the reflex and the number of conditioned food-procuring movements. Local administration into the hypothalamus of GABA prolonged the latencies of heteromodal conditioned reflexes, whereas the serotonin had no effect on the recorded FR parameters, but facilitated AR significantly reducing its latencies.     

Various neurochemical mechanisms for the production of conditioned reflexes of various biologicals modalities at the level of the caudate nucleus]

Microinjection of noradrenaline in to the head of the caudate nucleus failed to influence the latent time of the conditioned reaction of avoidance and the muscle tone, but limited the motor activity and considerably increased the value and the latent time of the food-procuring reflex. Serotonin failed to influence the latent time of the conditioned defence reflex and did not alter the motor activity of rats; however, it shortened the latent period of the conditioned motor-food reflex and markedly stimulated the food-procuring reaction. Dopamine inhibited the conditioned food and defence reflex, but markedly stimulated the spontaneous motor activity of rats. The data obtained pointed to differences in the neurochemical mechanisms realizing the conditioned reflex reactions of different biological modality at the level of the caudate nucleus of rats.     

Monoaminergic mechanisms of the amygdaloid complex actualizing conditioned reflexes of different biological modality]

Microinjection of dopamine and serotonin into the dorso-medial portions of the amygdalic complex of rats increased the latent period of conditioned defense and motor food reactions, spontaneous motor activity, the number of jerks and the value of the conditioned food reflex. Noradrenaline failed to influence the recorded indices of the conditioned food-procuring reflex, but facilitated the conditioned reaction of avoidance, significantly shortening its latent time. The results obtained pointed to the specificity of the neurochemical mechanisms realizing at the level of the amygdalic complex conditioned reflexes of various biological modality in rats.     

Role of acetylcholinergic structures of the caudate nucleus in mechanisms of inhibition of a conditioned food-getting reflex in the cat

The effect of acetylcholinergic structures stimulation on the acquisition and inhibition of a conditioned food-procuring reflex was studied in cats. Physostigmine injections (0.1 mg/kg) did not facilitate the extinction of the non-reinforced food-procuring reactions of caudatectomized cats in contrast to the intact or lobectomized ones. The conclusion is made that acetylcholinergic structures of the caudate nucleus play an important role in the central inhibitory mechanisms responsible for the extinction of nonreinforced reactions.     

Role of monoamines in the recovery of the conditioned reflex activity of rats following extirpation of the frontal cortex

The influence of frontal cortex extirpation on the amount of monoamines in the brain structures was investigated in chronic experiments on rats trained according to the method of motor feeding reflexes with bilateral reinforcement. Monoamine levels were measured by high performance liquid chromatography with electrochemical detection. By the ninth day after the ablation serotonin (5-HT) and dopamine (DA) levels were significantly reduced in the cortex and the striatum, respectively, while noradrenaline ++ (NA), 5-HT, dihydroxyphenylacetic and 5-hydroxyindoleacetic acid levels in raphe nuclei and locus coeruleus were increased. The level of conditioned reflex reproduction was 39% on the light and 33% on the sound stimulus. The involvement of monoamines in the recovery of conditioned reflexes after frontal cortex extirpation is discussed.     

Glutamic Acid Signal Synchronizes Protein Synthesis Kinetics in Hepatocytes from Old Rats for the Following Several Days. Cell Metabolism Memory

The kinetics of protein synthesis was investigated in primary cultures of hepatocytes from old rats in serum–free medium. The rats were fed mixed fodder supplemented with glutamic acid and then transferred to a regular mixed fodder. The amplitude of protein synthesis rhythm in hepatocytes isolated from these rats increased on average 2–fold in comparison with the rats not receiving glutamic acid supplement. Based on this indicator reflecting the degree of cell–cell interactions, the cells from old rats were not different from those of young rats. The effect was preserved for 3–4 days. These results are discussed in connection with our previous data on preservation of the effect of single administration of gangliosides, noradrenaline, serotonin, and other synchronizers on various cell populations. In contrast to the other investigated factors, glutamic acid is capable of penetrating the blood–brain barrier, which makes its effect possible not only in the case of hepatocytes and other non–brain cells, but also in neurons.     

EEG analysis of the effect of stimulation of GABAergic structures of the caudate nucleus on the development of the effect of haloperidol

Functional significance of GABA-structures of the caudate nucleus was studied by EEG analysis of the influence of stimulation of these structures on the development of the effect of systemic introduction of the blockader of dopaminergic receptors haloperidol. Microinjections of GABA to the caudate nucleus prevented the suppressing action of haloperidol on food-procuring cats behaviour and led to restoration of the EEG-reaction to conditioned sound stimuli. A conclusion is made about an important role of GABA-ergic structures in the mechanisms of dopaminergic control of the inhibitory function of the caudate nucleus.     

Effect of disulfiram on the interconnected activity of cortical neurons in trained cats

The action of disulfiram on interconnected activity of neurones in the visual and motor cortical areas was studied in cats with food-procuring conditioned responses to light. Multiunit activity was recorded from the areas and, by means of amplitude discrimination, separated into impulse flows. Crosscorrelation analysis of the impulse series was used to reveal the character and temporal parameters of interconnected activities of neurones firing in correlation within the limits both of the same cortical area and of the two different ones. A depressing action was shown of the disulfiram on the food-procuring reaction, accompanied by a decrease of the number of pairs of neurones from the visual and motor cortical areas mostly acting in interconnection, interactions with long time delays being mostly affected. The character of action of neighbouring neurones in the visual and motor cortical areas changed in the same direction, expressed in their firing by a "common source" type. The question is discussed of disulfiram influence on interneuronal connections of both types suggesting a decrease of alimentary motivation as well as disturbance of food-procuring conditioned motor coordination.     

Organization of a program of automatized food-procuring movement in rats

With the use of techniques of video- and photorecording, local destruction of the brain structures, and recording of the spike responses, roles of the suprasegmental brain structures in organization and control of automatized food-procuring movements were studied in rats under conditions of unrestrained behavior. It is shown that there are several neuronal populations in the prefrontal cortex related to programing, initiation, and current control of the efficacy of performance of food-procuring movements. The lateral hypothalamus is considered a motivational structure. It acts as the source providing an increase in the excitability and further support of the excitation level in the structures, which are links of the systems controlling food-procuring movements. The lateral hypothalamus is also involved in a system providing formation and final application of motor programs.     

Roles of the Caudate Nuclei, Cerebellum, and Caudato-Cerebellar Interconnections in the Control and Coordination of Ballistic Food-Procuring Movements

We studied the roles of the cerebellum and caudate nuclei in the programming and control of ballistic movements. An experimental model of operant food-procuring movements of the rats was used; the activity of single neurons of the above structures was recorded in the course of these motor performances. To evaluate the impact of the cerebellar–caudate interaction on the process of control of the ballistic (centrally programmed) components of food-procuring motor performance, we also recorded modifications of the neuronal activity in one of the above-mentioned structures induced by electrical extrastimulation of another structure in the course of realization of the above components. It is demonstrated that the cerebellum and, in particular, its dentate nuclei are involved in the programming of ballistic food-procuring movements. Neurons of the caudate nuclei play a significant role in the immediate preparation for and subsequent current control of stereotyped ballistic movements. The high plastic properties of the cerebellar neurons manifested in the process of control of ballistic food-procuring movements are proved.     

Modulation of neuronal evoked responses to the medial septal area of hibernating ground squirrels by some neuropeptides after chronic disconnection between septum and preoptico-hypothalamic structures

Effects of some neuropeptides identified in the brain of hibernators (TSKYR, TSKY, DY) and of monoaminergic neurotransmitters (noradrenaline and serotonin) on responses of the medial septal neurons evoked by intraseptal electrical stimulation were analyzed in slices taken from the ground squirrels with chronic basal undercutting of the septum. Despite the elimination of direct contacts with the preoptic area and afferents ascending in the medial forebrain bundle, the neurons retained almost normal level of reactivity and distribution of the reaction types. The neuropeptides effectively modulated neuronal responses of various types, including oligosynaptic short-latency single-spike responses. The latter were strongly facilitated by the neuropeptides. As a rule, changes in the responses to electrical stimulation were independent of the spontaneous activity shifts (in 78% of the tests). It was suggested that the neuropeptides exert a double influence on the septal neurons: direct nonsynaptic effects on the pacemaker potential responsible for the background activity and modulation of synaptic processes. Our experiments showed that descending influences of the septo-hippocampal system are not crucial for the entrance into the hibernation state and its tonic maintenance. The influences of the thermoregulatory--circadian structures of the preoptico-hypothalamic area determine the paradoxically increased latent excitability of septal neurons that allows the septo-hippocampal system to gate external stimuli and organize arousal of the forebrain during hibernation in case of emergency.     

Characteristics of the systemic organization of the cortical neurons in various forms of the manifestation of the conditioned reflex to time

Conditioned food-procuring reflex to time (2 minutes interval) was elaborated in cats. By the method of cross-correlative analysis the combined neurones activity in microareas and between microareas of the motor cortex was compared at various forms of conditioned reflex manifestation. Three types of reactions were considered: A--decrease of respiratory movements amplitude towards the end of the studied interval between reinforcement; B--increase of the amplitude; C--food-procuring paw movement a few seconds before the reinforcement. All three forms of the conditioned reflex to time differed from each other by the level of increase of functional connections number by the moment of the reinforcing stimulus action, and also to a greater extent by the frequency of occurrence of intervals in which the sum of neuronal connections in all simultaneously recorded microareas was greater in the "active" phase than in the "inactive" one. These parameters did not always correlate with the change of impulses frequency of separate neurones which occurred considerably more seldom. All the observed changes were manifest significantly more often when the animals performed the instrumental food-procuring movement than during changes of only the respiratory movements amplitude.     

Effect of stimulation of GABA-ergic structures of the substantia nigra and caudate nucleus on food-getting behavior in the cat

A study was made of the functional significance of GABA-ergic structures of the substantia nigra (SN) and the caudate nucleus (CN) and their role in food-procuring behaviour of cats. Analysis was made of behavioral and EEG-effects of local GABA and the GABA antagonist, picrotoxin, microinjections into the studied brain structures. Stimulation of the GABA-ergic structures of the SN produced a sedative effect and depression of the cat food-procuring behaviour. Effects of stimulation of the CN GABA-ergic structures were to a great degree reverse. The conclusion has been made that GABA-ergic structures of the SN and the CN play different roles in controlling the CN inhibitory influence upon food-procuring behaviour.     

Memantine stimulates inositol phosphates production in neurones and nullifies N-methyl-D-aspartate-induced destruction of retinal neurones.

Whereas carbachol, noradrenaline, serotonin and memantine stimulated inositol phosphates production and calcium mobilization in 3-5 day old rabbit retinal cultures, only carbachol and noradrenaline were effective when 25-30 day old cultures were used. The older retinal cultures contain only Müller cells which shows that the memantine and serotonin effects on the 3-5 day old cultures are specifically associated with neurones. While the carbachol, noradrenaline and serotonin effects were respectively blocked by atropine, prazosin and ketanserin, none of these substances influenced the memantine responses. In all areas of the rat brain which were analysed, the effectiveness of memantine, noradrenaline and carbachol on the stimulation of inositol phosphates production was similar. However, in the rabbit retina, as opposed to the rat brain slices, carbachol had a more pronounced influence than noradrenaline in stimulating inositol phosphates production. Chick retina exposed to N-methyl-D-aspartate, quisqualate, glutamate or kainic acid resulted in cytopathological damage to cell bodies in the outer nuclear layer. The N-methyl-D-aspartate effect was nullified by memantine and MK-801 but not by kynurenic acid. In contrast the kainic acid-induced damage was specifically antagonized by kynurenic acid. The present results show that memantine influences the metabolism of inositol phosphates in neurones but not glial (Müller) cells and appears to counteract the N-methyl-D-aspartate induced cytopathological damage. How these two effects of memantine are interrelated and whether they are involved in the described beneficial therapeutic observations of memantine (as in dementia) remains to be established.     

The effect of ablation of the caudate nucleus on the alimentary zone of the lateral hypothalamus]

A conditioned food-procuring reaction previously elaborated to an acoustic stimulus was reproduced in chronic experiments on six cats by means of direct electrical stimulation of the posterior parts of the lateral hypothalamus. Folloiwng extensive bilateral electrolytic ablation of the caudate nucleus, conditioned food-procuring reaction to the stimulation of the hypothalamus could not be reproduced for 40 to 70 days. The conditioned foor-procuring reflex to the acoustic stimulus disappeared for 14 to 30 days to be subsequently spontaneously restored. After caudatotomy, a diminution of the average amplitude of background oscillations and of evoked potentials to acoustic stimuli was recorced in the examined zones of the lateral hypothalamus. The part played by the caudate nucleus in the processes of alimentary behaviour activation is discussed.     

Neurotransmitter Receptor Ligand Binding and Enzyme Regional Distribution in the Pigeon Visual System

The relative importance of acetylcholine, dopamine, endogenous opiates, gamma-aminobutyric acid (GABA), glutamate, glycine, noradrenaline, and serotonin as transmitters in the pigeon visual system was estimated by measuring the activity of choline acetyltransferase (ChAT), glutamic acid decarboxylase (GAD), and aromatic amino acid decarboxylase (AAD) as well as the binding of dihydroalprenolol, etorphine, kainic acid, muscimol, serotonin, spiroperidol, strychnine, and quinuclidinyl benzilate (QNB) in the tectum opticum, nucleus rotundus, ectostriatum, dorsolateral thalamus, and hyperstriatum (Wulst). As a nonvisual reference structure, the paleostriatal complex was included in the examination. The regional distribution of most of these parameters was very similar to data reported in the mammalian CNS supporting the hypothesis that the avian tectofugal and thalamofugal visual systems are homologous to the mammalian tecto-thalamo-cortical and retino-geniculo-striate pathways, respectively. On the basis of the low values of their parameters, some transmitters can be excluded as significant contributors in a number of structures. As a hypothesis for further investigations, the presence of cholinergic and serotoninergic systems in the Wulst, possibly originating in the dorsolateral thalamus and nucleus raphe, respectively, and of glycinergic and dopaminergic terminals in the paleostriatal complex is proposed.     

The temporal organization of the functional connection of the motor cortex neurons in the cat]

Conditioned food-procuring response to time (2 minutes interval) was elaborated in cats, multiunit activity of the motor cortex being recorded. On the basis of single spike trains discriminated from the multiunit activity the cross-correlation histograms were built and the spikes composing their peaks were analysed in real time. This secondary analysis of the histograms allowed to ascertain the dynamics of functional connections between the neurons during the phase of active waiting according to the distribution of coincident impulses. A concentration of coincident impulses of simultaneously recorded cells was observed in different moment of time. In some neuronal pairs the concentration of coincident impulses was revealed to the end of the conditioned interval. The data obtained are considered as a manifestation of the conditioned reaction at the level of neuronal interaction.     

Effect of electrocoagulation of the septum on the behavior and memory of the cat

Lesion effects of various areas of the septum on general behaviour, learning and memory were studied in cats. It appeared that electrocoagulation of the medial septum alone leading to the disappearance of the hippocampal theta rhythm does not result in the development of the septal syndrome signs; does not disturb the normal structure of the sleep-wakefulness cycle; does not delay the elaboration of instrumental alimentary reflexes (to approach two feeders) or their extinction, but does entirely disturb the delayed responses to conditioned stimuli. In cases when lesion involves also the lateral septum, it produces the development of all signs of the septal syndrome (hyperemotionality, hyperactivity, rage, hyperphagia, etc.), disturbance of the normal structure of the sleep-wakefulness cycle, delay of both the elaboration and extinction of instrumental alimentary reflexes, disturbance of pre-elaborated conditioned reactions with sound discrimination, entire disturbance of conditioned delayed responses. On the basis of these data, the specific significance of hippocampal theta-rhythm in the organization of learning and memory is rejected, and a more important role is attributed to the descending regulatory influence exerted by the hippocampus and other archipaleocortical structures on the activating and motivatiogenic structures of mesodiencephalon.