EEG-correlates of alimentary behavior in rabbits with different levels of hunger and satiety]

The electrical activity of the rabbit brain at different stages of hunger and satiation was correlated with the animal's behavioral reactions. It has been found that alimentary reactions are attended with the appearance of complex high-amplitude and high-frequency electrical potentials in the lateral hypothalamic area, which increased with the longer duration of the animal's hunger, as well as during search, in response to natural and conditioned alimentary stimuli, and when feeding. As satiation sets in, they fade and disappear after food refusal. It is assumed that this form of activity is an EEG expression of alimentary motivational excitation. Its constituent rhythms reflect the different components of alimentary excitation.     

The potentials of spectral-correlative methods for analyzing total brain electrical activity exemplified by a study of the electrosubcorticograms of dogs

Temporal resolving ability is considered of spectral-correlative methods of analysis of summate electrical brain activity. It is shown that despite their inertia, incompatible in some cases with the brain "functional lability", the use of these methods is perspective for studying the typological properties of the higher nervous activity and the dynamics of functional states characterized by the time of about 100 s and more. The fact of stability of spectral characteristics of the summate electrical brain activity at prolonged realizations was found experimentally. Connection was studied between the level of the dog alimentary motivation and rhythmic activity in the amygdala.     

Functional differentiation of the theta-rhythm of the hippocampus in the cat

On the model of discriminating alimentary conditioned reflex with spatial separation of the sources of conditioned (CR, light flashes) and unconditioned (feeding trough) stimuli the theta-rhythm of the dorsal hippocampus was evaluated in cats. Two types of the theta-rhythm were observed in the spectrum of the hippocampal electrical activity: low-amplitude, consisting of a slow growing theta-waves (type I) and high-amplitude consisting of rapidly increasing theta-waves (type II). The type I theta-rhythm is sensitive to noradrenaline and correlates with behavioural forms directed immediately to the realization of alimentary motivation, while the type II is sensitive to serotonin and correlates with behavioural forms directed to the source of the conditioned stimulus. Enhancement of the type II theta-rhythm takes place during a delay of the expected conditioned stimulus. It is suggested that type I theta-rhythm reflects a level of activity of the brain structures connected with unconditioned mechanisms, with realization of biological motivations, while type II theta-rhythm is connected with conditioned reinforcing stimuli; it correlates with various forms of conditioned orienting reflexes and reflects the work of the "nervous model of reinforcing stimulus".     

Pentagastrin modulation of the neuronal sensitivity of the lateral hypothalamus to noradrenaline and dopamine

Experimental study is dedicated to mechanisms of interaction of pentagastrin and monoamines (noradrenaline and dopamine) at the level of single neurones of the rabbits lateral hypothalamus under alimentary motivation and under saturation. It is shown that pentagastrin can modulate the effects of noradrenaline and dopamine on neuronal impulse activity in hungry and fed up animals, and the character of its action depends on the rabbits initial state. It is suggested that pentagastrin is a factor initiating alimentary motivational excitation, while noradrenaline maintains the latter at the definite level up to obtaining useful result by the animal, when dopaminergic mechanisms participating in the process of reinforcement join the noradrenergic ones.     

A statistical analysis of the functional connections between the neurons of the visual and motor cortex in different forms of conditioned-reflex behavior]

In experiments on cats with elaboration of delayed alimentary operant reflexes to light organization was studied of interneuronal cortical connections. By means of cross-correlation analysis the dynamics of intra- and interstructural neuronal network was revealed at the level of cortical projections (visual and motor) of cats brain zones at three forms of behaviour: CR realization, in intersignal period with the presence and absence of operant movements. Depending on the forms of behaviour, predominance of "informational" or "motivational" interneuronal connections was observed.     

Latent foci of excitation and the unpredictability of behavioral reactions

As a model for studying of "subconsciousness" mechanisms, latent foci of excitation may serve formed in animals under different influences on the brain: direct current, endogenous shifts and also under trace excitation after suprathreshold activity. It is experimentally shown that latent foci of excitation can intensify at activation of other CNS areas; as a result externally unmotivated "unpredictable" behavioural reaction arises. Between two latent foci of excitation associative connection can be established. The latent foci of excitation in the human CNS are also able to be activated under the influence of sensory stimuli, and behavioural reaction arising as a result of summation has no reflection in consciousness. Conclusion is made: it is rightful to consider the dominant foci of excitation formed at the level of subconsciousness as one of possible mechanisms of "unpredictability" of behaviour.     

Acid-Base Balance Modulates Respiratory and Alimentary Behavior of the Mollusc Lymnaea stagnalis

An active reaction (change of pH) in hemolymph of the freshwater pulmonate mollusc Lymnaea stagnalis is studied in various physiological states: hunger, satiety, and alimentary excitation. In satiated animals the hemolymph pH is shifted to the acid area (7.6 ± 0.003) as compared with hungry animals (7.9 ± 0.05). The satiated individuals are characterized by an increased respiratory activity and decreased food consumption as compared with hungry animals. Acidification of the medium leads to an increase of excitability of the respiratory network interneurons (RPeD1, VD4, VD1/RPD2) and to inhibition of activity of the alimentary network interneurons (R/L CGC), whereas alkalization, to opposite effects. It is suggested that pH is one of factors coordinating activity of functional systems of Lymnaea stagnalis due to effect on neuronal correlates of the respiratory and alimentary behavior.     

Integrative properties of parietal cortex neurons of rabbits during the switching of heterogeneous classical conditioned reflexes

The impulsive activity of parietal cortex neurons of rabbits during the elaboration and specialisation of switching-over of alimentary and defensive conditioned reflexes has been studied. There are changes of parietal cortex neurons activity correlated with the stages of switching-over elaboration. The significant differences of the background neurons activity and neurons response to the conditional signal during alimentary and defensive conditioned reflexes have been established. The dominant motivation influences the neurons activity by modulation of background and conditioned activity of neurons. The integrative properties of neurons investigated in switching-over situation are revealed in their ability to summarize the excitation coming to the same sensory input with excitation from different motivational and reinforcement systems.     

The effects of intracerebral injections of kynurenine on conditioned reflex activity and on the serotonin level of the blood in dogs]

Higher nervous activity of dogs was studied by classical Pavlovian method of alimentary salivary conditioned reflexes and serotonin content in blood was measured. Kynurenine sulfate in a dose of 300 + 300 mkg (bilaterally) was injected in the dorsal hippocampus region through chemiotrodes. In most cases the injection of the substance led to changes towards excitation (increase of conditioned and unconditioned alimentary salivation in the day of injection and the next day) and also to a rise of serotonin content in animals blood.     

Neuromediator sensitivity of neurons of the reticular formation and orbital cortex in hungry and satiated rabbits

In conditions of stereotaxic fixation, noradrenaline microionophoresis and stimulation of the lateral hypothalamus acted in the same sense on impulse activity of 35 and 37% of the neurones in the reticular formation of satiated rabbits, in joint action increasing the number of cells with distribution of intervals characteristic of alimentary motivational excitation. Microionophoresis of acetylcholine to the neurones of the orbital cortex in freely behaving rabbits reshaped the impulse activity of 57% of cells in accordance with the pattern of discharge activity characteristic of alimentary motivational excitation. Such excitation, natural as well as artificially evoked, widens polychemical properties of the neurones of the reticular formation and, on the contrary, narrows polychemical properties of the nerve cells of the orbital cortex.     

Why cattle feed much and humans think much - New approach to confirm the expensive tissue hypothesis by molecular data

The “expensive tissue hypothesis” states that large brains are active at high metabolic rates, which have to be financed by a significant trade-off with other organs such as the alimentary tract. Recent morphological findings on primate brains and guts support this idea also considering the importance of high-energy diets as a possible driving power of this process. However, the trade-off correlation between brain and alimentary tract, the essence of the “expensive tissue hypothesis”, has not yet been tested using molecular data to complement morpho-functional findings. We therefore hypothesize that the activity of marker proteins expressed both in brain and alimentary tract should parallel functional morphology in organs at the molecular level. Thus, in animals feeding on hard to digest diet, we would expect a high concentration per unit mass of that marker protein in the digestive tract and reversely a lower concentration in the brain. In contrast, in animals feeding on easily-digested, high-energy food we would expect the reverse pattern. Recent preliminary studies suggest that carbonic anhydrase II (CA-II) could act as a marker. The enzyme concentration was found to increase in the brain with higher cerebral activity from cattle to humans and to reversely decrease in salivary secretions. The reverse concentration of CA-II in saliva and brains of cattle and primates might be the first molecular evidence of the validity of the “expensive tissue hypothesis”.     

The effect of cryogenic exclusion of the neocortex on preservation of the functioning of its temporal regions]

In chronic experiments on nine cats a study was made of different forms of their behavior in conditions of cold elimination of the cerebral cortex with the exception of the temporal areas. The first sessions of cooling produced a diminution of alimentary excitability, enhanced motor activity, loss of the reaction of mouse chasing and of a defensive reaction against the dog, and a disappearance of previously elaborated conditioned runnings to the feeding trough, etc. In the course of subsequent experiments with the neocortex cooling, the disturbed forms of behavior were restored. In the second and third sessions alimentary excitation was considerably restored; by the sixth and seventh sessions motor activity became normal, while the 20th to 25th sessions exhibited a protective reaction against the dog. Conditioned runnings restored in the seventinth session were manifest in the 20th to 25th sessions in 80% of cases. It is assumed that the temporal areas of the neocortex while playing a considerable part in integrating the activity of the whole brain, including the formation and manifestation of conditioned reflexes, under normal conditions, to a large extent lose their integrative role when the rest of the neocortex is elimated.     

Functional transswitching of dominant motivation in the systems organization of behavioral acts

In experiments on rabbits, instrumental and complex conditioned alimentary behaviour was studied at various ways of raising alimentary motivation to extreme levels. Animals behaviour in these conditions could acquire an outwardly non-motivated (in relation to alimentary need) character. It is suggested that these phenomena are based on the transformation of the dominant motivation and not on the mechanism of "shifted" activity. In experiments on rats, a long "pseudoreinforcement" of extremely enhanced motivation of thirst by ethanol led to profound changes of physiological and neurochemical properties of the primary drinking motivation centres of the hypothalamus. It is suggested that such changes underlie the realization of plasticity properties of the dominant motivation.     

Dynamics of caudate nucleus involvement in the process of internal inhibition of the food-getting reflex]

Changes of slow spindle electrical activity (12 to 14 cps) and evoked potentials in the cat caudate nuclei and the motor cortex were studied at different stages of elaboration of differentiation inhibition of a conditioned food-procuring reflex to acoustic stimuli. It has been shown that participation of the caudate nuclei in the inhibitory process begins at the stage of enhancement of food-procuring activity (second stage) and is apparently due to the animal's strong alimentary motivational excitation. At the third stage the inhibitory influence of caudate nuclei on the animal's motor activity in general, and the activity of the motor cortex in particular, develops to the full.     

Role of protein phosphorylation in regulation of brainL-glutamate decarboxylase activity

In the brain, the -aminobutyric acid (GABA) level is primarily controlled by the activity of its synthesizing enzyme,L-glutamate decarboxylase (GAD). At present, mechanisms responsible for regulation of GAD activity remain largely unknown. Here we report that GAD activity is inhibited by conditions favoring protein phosphorylation, and this inhibition can be reversed by phosphatase treatment. Furthermore, this inhibition appears to result from the suppression of a Ca²⁺-dependent phosphatase. Phosphorylation of GAD is demonstrated by direct incorporation of³²P into the GAD protein. These results suggest that GAD activity in the brain is inhibited by phosphorylation and activated by dephosphorylation. A model for regulation of GABA synthesis related to neuronal excitation is discussed.     

A combination of ascorbic acid and α-tocopherol or a combination of Mg and Zn are both able to reduce the adverse effects of lindane-poisoning on rat brain and liver

The purpose of this study, carried out on male Wistar rats, was to evaluate the beneficial effects of supplementation with ascorbic acid (Vit C) and α-tocopherol (Vit E) or with Mg and Zn upon lindane-induced damages in liver and brain. Under our experimental conditions, lindane poisoning (5 mg/kg body weight per day for 3 days) resulted in (1) an increased level of plasma glucose, cholesterol and triglycerides, (2) an increased activity of LDH, ALP, AST, ALT, (3) an oxidative stress in liver and brain as revealed by an increased level of lipids peroxidation (TBARS) and a decrease of glutathione-peroxidase, superoxide dismutase and catalase activities in liver and brain. In conclusion, both Vit C + E or Mg + Zn treatments display beneficial effects upon oxidative stress induced by lindane treatment in liver and brain.     

Comparative study on the influence of fluoride on lipid peroxidation and antioxidants levels in the different brain regions of well-fed and protein undernourished rats

Effects of fluoride on the levels of Lipid peroxidation (LP) and antioxidant enzymes in the brain regions of protein undernourished (PU) and well-fed rats (WF) rats exposed to 100 ppm fluoride in drinking water were investigated. The results indicate that the mean body weights and the total brain weights of PU rats as well as those given fluoride (both WF and PU) were significantly (P < 0.05) lower than their respective controls. The weights of different brain regions were also significantly reduced (P < 0.05) in PU rats compared to WF rats except in the brain stem. Fluoride ingestion diminished the weights of WF and PU rats affecting the cerebrum only (in the case of PU rats) and the cerebellum of both WF and PU rats without an effect on the brain stem of both WF and PU. Additionally, increased LP was observed in the cerebrum and cerebellum of PU rats but after fluoride ingestion, 30% increase in LP was observed only in the cerebrum. In the brain stem however, protein undernutrition was accompanied with a significant reduction in LP but the region seems insensitive to fluoride. There were significant reductions (P < 0.05) in CAT, SOD and GSH in all the brain regions (except the GSH level in the brain stem only) of PU rats. Fluoride induced reduction in the activity of CAT in the three brain regions and on SOD activity in cerebrum only for WF rats but no effect of fluoride on all the antioxidants studied in the three brain regions for PU rats. It is concluded that WF and PU rats responded differently to fluoride toxicity. However, it seems that at the dosage used, fluoride toxicity may be a direct effect on the antioxidant enzymes.     

Natural 1st and 2d degree conditioned food reflexes in the dog in relation to space orientation

In three dogs formation and performance of spatial alimentary natural conditioned responses of the second order was studied when the dog had to find food preliminarily shown to it in one of the four food-distributors (psychonervous activity directed by a food image in terms proposed by I. S. Beritashvili). Characteristics of this form of behaviour were demonstrated and discussed: rapid formation, dependence of performance on the delay time, conflict between responses of the first and the second order. In the second series of the experiments food-procuring behaviour of dogs was studied under conditions of conflict between the quality (value) of alimentary reinforcement and probability of its finding in certain food-distributor. Such kind of behavior was shown to depend on the motivation level and individual characteristics of the dog. Interaction of "informational" (anterior areas of the neocortex, hippocampus) and "motivational" (nuclei of amigdalar complex, hypothalamus) cerebral structures is supposed to underlie the organization of behaviour.     

Modeling different regimes of bioelectrical activity in the brain in normal subjects and in "increased readiness" in a network of neuron-like elements

Desynchronous (low voltage fast activity), synchronous (high voltage slow waves) as well as convulsive brain activities were stimulated by a computer model of neuronal population. Network excitatory and inhibitory elements possessed fundamental dynamic properties of real neurones. Being independent both of the excitability of elements and of external influence efficacy, synchronous (desynchronous) network activity resulted from the increase (decrease) of the average power of "neuronal" interconnections which imitated mutual and recurrent excitation and inhibition. The inhibition efficacy being reduced as compared with excitation, synchronization of elements became intensified. As a consequence, the rhythmic activity amplitude increased and the appearance of self-sustained oscillations simulating convulsive activity was facilitated. The probable mechanism of EEG activation by virtue of the reduction of mutual and recurrent excitation and inhibition efficacy as well as the significance of inhibitory mechanism deficiency for epileptogenesis are discussed.     

Participation of receptors of the NMDA type in regulation by glutamate of alimentary motor program of the freshwater mollusc <Emphasis Type="Italic">Lymnaea stagnalis</Emphasis>

A possible participation of receptors of the NMDA type in regulation by glutamate of the Lymnaea stagnalis alimentary program was studied in electrophysiological experiments. The specific antagonist of receptors of the N-methyl-D-aspartate (NMDA) type MK-801 has been shown to turn off the endogenous generation of the standard three-phase rhythm or the two-phase rhythm. Stimulation of receptors of this type by their specific agonist, NMDA, on the contrary, increased frequency of the alimentary rhythm and transformed it to the two-phase one. All NMDA effects are eliminated by MK-801. Apart from action on generation of central alimentary rhythms, ligands of receptors of the NMDA type change the tonical level of depolarization and activity of the alimentary circuit motoneurons. MK-801 decreased the initial level of the motoneuron B4 activity and inhibited the excitatory effect both of NMDA and of glutamate itself. There are also obtained data in favor of that earlier reported effect of transformation of the inhibitory response of neurons B4 to glutamate to the excitatory one at action of nitric oxide (NO) donors can be mediated by the specific NO effect on the activity of receptors of the NMDA type. The blocker of NMDA receptors MK-801 has been shown to inhibit the effect of transformation of the response to glutamate. The NO donor nitroprusside enhanced essentially the NMDA excitatory action, while the NO acceptor PTlO decreased it. The results obtained with use of ODQ, the blocker of NO-sensitive guanylyl cyclase (GC), allow thinking that effect of NO on activity of the NMDA receptors of the pond snail alimentary program can be realized through the metabolic pathway GC-cGMP. On the whole, the obtained results show the pond snail receptors of the NMDA type to participate in generation and rearrangements of rhythmical alimentary programs in the tonical excitatory effect on the alimentary program motoneurons in the NO-dependent transformation of the glutamate response.