Differences in activity of hippocampal and neocortical neurons in active and passive rabbits in negative emotional situations

Activities of individual hippocampal (CA1 area) and neocortical parietal-temporal neurons were compared in active and passive rabbits in negative emotional situations during emotionally significant stimuli by plotting histograms of autocorrelations. As compared to passive animals, in active rabbits, the mean firing rate of hippocampal neurons was higher, bursting and periodic oscillations of discharges occurred more frequently. Oscillation periods in the theta 1 band (6.0-9.0 Hz) appeared more frequently (in the baseline state and active exploratory or defensive reactions), whereas those in the theta 2 band (4.0-5.9 Nz), on the contrary, were infrequently observed (during freezing). The greatest changes in activity ofhippocampal neurons were observed during active locomotor responses of active rabbits. Intergroup differences in neocortical neuronal activities were less pronounced than in hippocampus. The results indicate that individual typological features in behaviour of animals appear in negative emotional situations and are reflected in activity of activity ofhippocampal (area CA1) and to lesser extent parietal-temporal neocortical neurons. The results suggest different activation levels of the septohippocampal system of active and passive rabbits and possible differences in the afferent input to the CA1 field.     

The EEG activity after lesions of the diencephalic part of the zona incerta in rats

Neocortical and hippocampal EEG activity was recorded in 23 rats subjected to the bilateral electrolytic lesions of the diencephalic zona incerta (ZI). The aim was to find whether damage to ZI can replicate insomnia and disturbances in cortical EEG desynchronization and hippocampal theta rhythm found after lesions of the lateral hypothalamic (LH) area. No effect of the ZI lesions on waking-sleep cycle was found. The amplitude and frequency of cortical waves and hippocampal theta rhythm during waking were changed only in some rats. These changes were small, short-lasting and bidirectional (toward and increase or decrease in different subjects). Both the amplitude and frequency of paradoxical sleep theta were depressed in part of animals. Thus the marked EEG changes after LH lesions can not be attributed to simultaneous damage of the adjacent subthalamic region. However, the ZI seems to constitute a part of a larger system regulating cortical arousal and hippocampal theta rhythm.     

Neuronal septal activity during hippocampal seizure discharges generation in acute model of epilepsy

The activity of the neurones of the medial septal region (MS) and the hippocampal EEG in control and during the appearance of seizure discharges provoked by electrical stimulation of the perforant path were investigated in the awake rabbit. During afterdischarge generation in the hippocampus the dense neuronal bursts separated by periods of inhibition were recorded in the MS. In one group of neurons the bursts of spikes coincided with the discharges in the hippocampus, in other group-occured during inhibitory periods. When the afterdischarge stopped, in the septal neurons with theta activity the disruption of theta pattern was recorded, which have been correlated with the occurrence of low amplitude high frequency (20-25 Hz) waves in the hippocampal EEG. As a rule, the neuronal activivity of the MS recovered much quickly than EEG of the hippocampus; in some cases the increasing of the theta regularity was observed. The definite accordance of the electrical activity of the hippocampus and MS during seizure discharges suggests that the septohippocampal system operate as integral nervous circuit in these conditions. Diverse in the temporal interrelations between the discharges of MS neurones and ictal discharges in the hippocampus in the different cells possible indicate that various groups of the septal nervous elements have different participation in the seizure development. Appearance of the high frequency bursts in the MS is a possible "precursor" of the seizure onsets.     

Interactions between electrical activities of the sensomotor cortex and the hippocampus during 'animal hypnosis' in rabbits

The electrical activity of the left and right sensorimotor cortex and left and right dorsal hippocampus (CA3 fields) was recorded during "animal hypnosis" in rabbits. The "animal hypnosis" produced asymmetry in the spectral power of the hippocampal electrical activity due to an increase in the power of delta 1, delta 2, and theta 1 components in the left-hippocampus and decrease in the spectral power in the same ranges in the right-hippocampus. Hemispheric asymmetry in the electrical activity during the "animal hypnosis" was also expressed in the indices of coherence between the sensorimotor cortex and hippocampus. EEG coherence between the left sensorimotor cortex and left hippocampus in the delta 1, theta 1, and theta 2 ranges was higher than that between the right-side structures.     

Dopaminergic regulation of theta activity of septohippocampal neuron in the awake rabbit

The effects of dopamine reuptake blocker nomifensine and nonselective antagonist of dopamine receptors haloperidol on the theta rhythmicity of the medial septal neurons and hippocampal EEG were investigated in the rabbit. Bilateral intracerebroventricular infusion of nomifensine (9 micrograms in each ventriculus) produced an increase in both the rate of firing and the theta modulation of medial septal neurons; the theta power of the hippocampal EEG also augmented. The degree of neuronal theta stability (time constant of damping, tao theta) significantly increased. The frequency of rhythmic bursts in the neuronal firing also substantially elevated. The amplitude, regularity and frequency of theta waves in the hippocampal EEG also increased. The antagonist haloperidol (12.5 mg) caused the opposite effect. The theta activity of medial septal neurons and the theta power of the hippocampal EEG decreased after haloperidol injection. Theta rhythmicity of septal neurons significantly diminished, the rate of rhythmic bursts in the neuronal firing also decreased, although not substantially. The theta amplitude and regularity in the hippocampal EEG also decreased. Effects of both drugs built up rapidly and then gradually attenuated. Nomifensine infusion against the background of exposure to haloperidol provoked neither increasing neuronal firing rate, nor elevating theta activity. These finding suggest that dopaminergic system produces activation of the septohippocampal system in situations that require selective attention to functionally important information.     

Changes in the oxygen tension level in different brain structures of rats in the waking-sleep cycle

Changes of oxygen tension level (pO2) in the visual cortex, dorsal hippocampus, lateral hypothalamus and central grey substance were studied during wake-sleep cycle in rats. The dependence was established of pO2 level changes on the character of behavioural reactions and on the accompanying hippocampal EEG activity: during orienting-investigatory and active defensive behaviour and also during paradoxical sleep, accompanied by hippocampal theta rhythm, pO2 level increased; during passive-defensive behaviour "freezing" reaction accompanied by desynchronization of the hippocampal rhythmic, the level of pO2 decreased. The obtained data confirm Routtenberg hypothesis about two relatively independent systems of ascending activation with different types of hippocampal EEG activity and supplement it with a thesis that the activity of these systems is accompanied by different shifts of brain oxidative metabolism.     

Hippocampal Theta Modulation of Neocortical Spike Times and Gamma Rhythm: A Biophysical Model Study

The hippocampal theta and neocortical gamma rhythms are two prominent examples of oscillatory neuronal activity. The hippocampus has often been hypothesized to influence neocortical networks by its theta rhythm, and, recently, evidence for such a direct influence has been found. We examined a possible mechanism for this influence by means of a biophysical model study using conductance-based model neurons. We found, in agreement with previous studies, that networks of fast-spiking GABA -ergic interneurons, coupled with shunting inhibition, synchronize their spike activity at a gamma frequency and are able to impose this rhythm on a network of pyramidal cells to which they are coupled. When our model was supplied with hippocampal theta-modulated input fibres, the theta rhythm biased the spike timings of both the fast-spiking and pyramidal cells. Furthermore, both the amplitude and frequency of local field potential gamma oscillations were influenced by the phase of the theta rhythm. We show that the fast-spiking cells, not pyramidal cells, are essential for this latter phenomenon, thus highlighting their crucial role in the interplay between hippocampus and neocortex.     

Functional characteristics of the mature and developing brain following neuroimmunization: an analysis of the short-term plasticity of the rat hypothalamus

In experiments on mature and developing (3-4 weeks old) rats the influence was shown of neuroimmunization with summate antigens of hippocampal or neocortical tissue cytosolic fraction on short-term plasticity of hippocampal CA3 field potentials under dentate gyrus zone stimulation. An increase of paired facilitation and frequency potentiation was revealed in pyramidal layer responses of hippocampal tissue immunized animals. In case of immunization with neocortical antigens the changes were less expressed, had mainly the opposite direction and took place in the apical dendrites zone. In young animals besides antigen spectrum depending effects of neuroimmunization an earlier manifestation (in comparison with age norm) of some focal activity definitive properties was described. The suggestions are made about different localization of hippocampal or neocortical tissue immunization "targets" with possible preferential damage of intrahippocampal systems when using this structure antigens, and also about dependence of physiological consequences on the extent of target structure ontogenetic maturity.     

Relations between hippocampal network free oscillations and the theta activity

The relations between the component of the hippocampal network free oscillations, i.e., sharp potential waves (SPW) and the theta component of the hippocampal EEG are considered. It is commonly accepted that, in the course of changes from the state corresponding to a weak activation of the hippocampal network in the theta rhythm by the septum through the state corresponding to a medium activation to the state of a high activation, the inverse dependence between the magnitudes of these components in the EEG spectra takes place. However, our work shows that this dependence can be deranged in the rat EEG during quiet wakefulness that corresponds to the medium activation of the hippocampal network in theta rhythm. It was also shown that the RF stimulation can evoke abnormal signals with well-pronounced theta activity against the background of a considerable SPW component. This phenomenon demonstrates a possibility of a strong derangement of the dependence, which is, as a rule, observed under the natural conditions. The hypothesis concerning the organization and regulation of the investigated components of the hippocampal EEG is proposed.     

Hippocampal activity with twofold theta-frequency

Results obtained by the author and literature data concerning a peak of the power spectrum of hippocampal theta activity of a rat in the range of twofold theta frequency (12-20 Hz) are analyzed. The results of author's research of the signal corresponding to the second frequency group of spectrum (a twofold theta-frequency harmonic with adjoining frequency components) suggests the existence of a high-frequency component in the hippocampal theta activity regulated independently of the main theta wave. An attempt to coordinate the obtained results with the contemporary ideas about the structure of the hippocampal EEG and to explain the results of some works that does not correspond to these ideas is made. Some hypotheses about the origin and regulation of the high-frequency component of the theta activity are proposed. A particular role of the high-frequency component in different modes of activation of hippocampus is demonstrated.     

The benzodiazepine recognition site inverse agonists Ro 15-4513 and FG 7142 both antagonize the EEG effects of ethanol in the rat

The aim of the present study was to compare the ability of Ro 15-4513 and FG 7142, two inverse agonists for benzodiazepine recognition sites, to antagonize the EEG effects of ethanol in freely moving rats. Ethanol (2.5 g/kg, p.o.) induced sedation and ataxia associated with a progressive suppression of the fast cortical activities and an enhancement of low frequencies in both cortical and hippocampal tracings. In contrast, Ro 15-4513 (2 mg/kg, i.p.) and FG 7142 (10 mg/kg, i.p.) both caused a state of alertness associated with desynchronized cortical activity and theta hippocampal rhythm as well as spiking activity which was predominantly observed in the cortical tracings. When rats were treated with FG 7142 or RO 15-4513 either before or after ethanol, a reciprocal antagonism of the behavioral and EEG effects of ethanol and of the partial inverse agonists was observed. These data support the view that the anti-ethanol effects of Ro 15-4513 may be related to its partial inverse agonist properties.     

Mechanisms of the regulation and functional significance of the theta rhythm. Roles of serotonergic and noradrenergic systems

The evidence for the role of serotonergic and noradrenergic effects on the septohippocampal theta oscillations obtained by the author and her colleagues are reviewed. Analysis of neuronal activity in the medial septal area or hippocampus and hippocampal EEG simultaneously recorded in awake rabbits exposed to different kinds of brainstem influences led to the following conclusions. 1. Serotonergic median raphe nucleus and noradrenergic locus ceruleus act as functional antagonists in theta regulation: the former structure restricts the theta rhythm generation, whereas the latter enhances this process. 2. Both transmitter systems control sensory reactions of septal and hippocampal neurons through up and down regulation of the theta activity. 3. When continuous theta activity induced by various experimental manipulations is recorded, responsiveness of septohippocampal neurons to sensory stimulation is strongly reduced. These findings provide support for the view that the theta oscillations act as an active filter in the information selection and registration. Interaction of different transmitter systems in the theta rhythm control as well as attention and memory is discussed.     

Role of septal and entorhinal inputs in the generation of hippocampal electrical activity in the cat sleep-wake cycle

The effects of septal lesion and entorhinal cortex section on hippocampal electrical activity during the cat sleep-wake cycle were investigated in chronic experiments. The medial portion of the septum only was found to participate in generation of this activity. Complete suppression of hippocampal theta rhythm during active wakefulness and paradoxical sleep were the main effects of septal lesion. In slow-wave sleep, the effects of septal lesion manifested in a slight attenuation of the intensity of the dominant frequency (of 1 Hz). Widespread septal lesion does not add to the changes occurring when the medial portion of the septum is so isolated. Section of the entorhinal cortex produces a sharp increase in hippocampal theta rhythm during waking and paradoxical sleep. Clearcut attenuation of delta and subdelta rhythm intensities were observed in slowwave sleep. It is postulated that under normal conditions hippocampal entorhinal input exerts a modulating effect on the genesis of hippocampal theta rhythm.I. S. Beritashvili Institute of Physiology, Academy of Sciences of the Georgian SSR, Tbilisi. Translated from Neirofiziologiya, Vol. 19, No. 5, pp. 622–630, September–October, 1987.     

Medial septal region as a target for modulation of seizure discharges in the hippocampus in a model of acute temporal lobe epilepsy

Investigation of changes in the hippocampal EEG produced by GABAergic and cholinergic substances delivered into the medial septum region was performed in awake rabbits. Changes in the threshold of seizure discharges in the hippocampus evoked by perforant path stimulation (model of acute epilepsy) were also examined. Injections of GABAA receptor antagonist picrotoxin or agonist of cholinergic receptors carbacholine in low doses induced an increase in the power of delta- and theta modulation and appearance of 7-12-Hz oscillations. The threshold of hippocampal seizure afterdischarges decreased. In higher doses, these substances evoked 7-15-Hz oscillations followed by seizures. GABAA receptor agonist muscimol and muscarinic receptor antagonist scopolamine decreased the power of the theta rhythm and increased the seizure threshold. Picrotoxin or carbacholine injected after muscimol or scopolamine, respectively, did not evoke seizures. Thus, we have shown the possibility to control hippocampal activity by local changes in the GABAergic and cholinergic systems of the medial septum region.     

Changes in the behavior and EEG of rats administered penicillin and a physiological solution into the amygdalar basal nuclei]

Three weeks after implantation of the electrodes for EEG recording, hyperactivation of the basal nucleus of rat's amygdala was produced by a local injection of penicillin (0.5 mcl, 1% solution). Saline injection of the same volume served as control. The hyperactivation of the amygdala resulted in a long-lasting (at least for 3 weeks) increase in the locomotor activity against the background and deficit in exploratory behavior and rise of the level of anxiety and fear. The behavioral changes were accompanied by a long-term disruption of the hippocampal theta rhythm, appearance and slowing of the immobility-related high-voltage spindles, and increase in the EEG dominant frequency in the state of emotional tension. Saline injection led to a short-time (up to 1 week) decrease in locomotor and exploratory activity and increase in anxiety. These phenomena were accompanied by a short-time disruption of the theta rhythm and appearance of the 10-13-Hz oscillations characteristic for the state of emotional tension.     

Modulation of theta-activity in the septo-hippocampal system by the alpha-2-adrenoreceptor agonist clonidine

The influence of the alpha 2-adrenoreceptors agonist clonidine on the neuronal activity of the medial septal area (MS) and hippocampal EEG was studied in unanaesthetized rabbits. A slight and short-term decrease in the theta-rhythm modulation in the MS neuronal activity and/or EEG was revealed in 30.4% of tests after the bilateral intraventricular injection of a small dose of clonidine (0.5 microgram/5 microliters of water). On the contrary, a high dose of clonidine (5 micrograms/5 microliters) substantially enhanced the theta modulation in 100% of tests. The frequency of the theta bursts in the MS increased, on average, by 1.6 +/- 0.18 Hz (from 5.25 +/- 0.19 to 6.8 +/- 0.17 Hz). The regularity of the theta modulation became almost twice higher: the time constant of damping increased from 0.34 +/- 0.04 to 0.60 +/- 0.08 s. Increase in the neuronal activity in the MS produced by the high dose of clonidine was always accompanied by appearance of continuous stable theta waves in the EEG; the spectral power in the theta range increased, on average, by 480 +/- 98%. This strong effect arose suddenly but was relatively short-lasting (12 +/- 3.5 min) and usually abruptly terminated. It is concluded that the noradrenergic system has a double control over the theta oscillations through the alpha 2-adrenoreceptors agonist. In low concentrations the agonist clonidine acts on the high affinity inhibitory presynaptic autoreceptors reducing the noradrenaline release and suppressing the theta activity. In a high dose clonidine predominantly acts on postsynaptic (low affinity) adrenoreceptors substantially increasing the frequency and regularity of the theta bursts in the activity of septal neurons. Presumably, different types of alpha 2-adrenoreceptors participate in regulation of the theta oscillations in different functional states. It is suggested that the noradrenergic locus coeruleus is a functional synergist of the activating reticular formation participating in the urgent phasic activation of the septohippocampal system during the action of sudden strong stimuli.     

Effects of dithizone on the electroencephalogram recorded from the mouse hippocampus in vivo

In the present study the author examined the effects of dithizone on hippocampal and cortical EEG by power spectral analysis in the moving mouse. Following results were obtained. Administration of dithizone 100 mg/kg i. p. produced almost loss of electrical activities on EEG which began 409 sec after injection and lasted approximately up to 706 sec. In recovery period waveform showed shift to slower frequencies apparent by 60 min. Heart rate decreases were seen between 5 and 20 min after 100 mg/kg i. p. injection. Dithizone produced dose-dependent changes in hippocampal and heart rate activities. Abolished EEG by dithizone administration were immediately recovered by zinc-acetate application. Injection of vehicle had no significant effect on hippocampal and cortical EEG.     

Carotid and cardiopulmonary chemoreceptor activity increases hippocampal theta rhythm in conscious rabbits

We have examined whether activation of carotid artery chemoreceptors causes alerting in conscious rabbits. Injection of phenylbiguanide (a 5-hydroxytryptamine(3)-receptor agonist) into the common carotid artery of conscious rabbits increased the proportion of theta rhythm in the hippocampal EEG, commencing in the first 5-s epoch after the injection. Intravenous injection of phenylbiguanide also increased the proportion of theta rhythm in the hippocampal electroencephalogram (EEG), but the onset of the change was not until the second 5-s epoch following injection. Injection of Ringer solution, either into the common carotid artery or into the marginal ear vein, did not affect the hippocampal EEG. Results suggest that phenylbiguanide-mediated activation of carotid and cardiopulmonary chemoreceptor afferents alerts the animal, as assessed by induction of theta rhythm in the hippocampal EEG. This alerting response presumably reflects the action of neural inputs that enter the brain with the carotid sinus nerve at the level of the medulla oblongata.     

急性大鼠癫痫模型海马神经元原发性单位后放电脉冲间隔特征

受到刺激后即刻出现的海马（hippocampus,HPC）原发性单位后放电是癫痫相关性细胞电活动的重要形式之一,其放电脉冲间隔（interspike interval,ISI）和串内平均频率（Hz）特征及其在网络癫痫形成中的作用值得探讨。实验用急性强直电刺激（60Hz,2S,0．4-0．6mA）大鼠右侧后背HPC（acute tetanization of the fight posterior dorsal hippocampus,以后简称ATPDH）或右侧尾壳核（acute tetanization of the fight caudate putamen nucleus,以后简称ATRC）诱导HPC或皮层网络癫痫,重点观察HPC神经元原发性单位后放电模式和上述的瞬时时间编码特征。结果表明：（1）HPC原发性单位后放电表现为两种不同的放电模式,即先易化后抑制或先抑制后易化,其ISI序列分别表现为先小后大的“头尾”式分布或先大后小的“尾头”式分布。（2）ATFDH主要引起“尾头”式（35／57串）、而ATRC主要引起“头尾”式（12／22串）ISI点分布的原发性单位后放电,串内“头”、“尾”平均持续时间均具有明显差异（P〈0．05）。（3）ATRC可以诱导双侧HPC单位后放电出现交互的“头尾”、‘呢头”式ISI点分布特征。（4）多串电刺激可以诱导HPC原发性单位后放电特征性ISI点分布重复显现。（5）特征性HPC原发性单位后放电伴随出现网络癫痫发作样高频电振荡。这提示：强直电刺激诱导的HPC神经元原发性单位后放电“头尾”或呢头”式ISI序列分布规律,可以较准确地反映所记录神经元的诱发性易化或抑制活动的程度,用于网络癫痫形成中单个成员细胞癫痫相关性电活动机制的分析。     

The theta modulation of rabbit hippocampal neurons and its correlation with other indices of spontaneous and evoked activity]

Reliability of the existing functional criteria for differentiation of pyramidal ("complex spike neurones") and inhibitory ("theta neurones") cells in the hippocampus of waking rabbit is evaluated on the basis of statistical analysis of neuronal spontaneous and evoked activity. The analysis shows, that the criteria of mean frequency, presence of theta modulation, neuronal behaviour in situations provoking EEG theta rhythm (e.g., excitation or inhibition during presentation of sensory stimuli), effects of medial septum and intrahippocampal stimulation do not permit reliable identification of the hippocampal neuronal types in the waking rabbit. The data on functional classification of the hippocampal neurones are discussed in connection with existing suggestions about their state in situations inducing theta rhythm generation.