Comparison of spontaneous cortical unit activity in several brain areas of unanesthetized cats

Spontaneous unit activity in association area 5 and some projection areas of the cortex (first somatosensory, first and second auditory areas) were studied in cats immobilized with D-tubocurarine in which the index of specific spontaneous activity, the mean frequency, types of spontaneous activity, and statistical parameters — distribution of interspike intervals and autocorrelation function — were determined. The results showed that spontaneous unit activity in the association area differs from that in the projection areas in both intensity and character. A special feature of the spontaneous activity of the auditory areas was a well-marked volley distribution of activity. In the somatosensory area the level of spontaneous activity as reflected in all indices was the lowest. In the association cortex the largest number of neurons with spontaneous activity lay at a depth of 500–1000 µ corresponding to cortical layers III–IV. In the first auditory area neurons with spontaneous activity were concentrated at a depth of 1400 µ (layer V) and in the somatosensory area at a depth of 1000–1400 µ (alyers IV–V). The possible functional significance of these differences is discussed.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 8, No. 1, pp. 13–21, January–February, 1976.     

Analysis of spontaneous unit activity of the cat caudate nucleus

Spontaneous unit activity recorded extracellularly from the caudate nucleus in acute experiments on cats was analyzed. A graph of the sliding mean frequency, an interspike interval histogram, correlogram, intensity function, and histogram of correlation between adjacent intervals were plotted for the spontaneous activity of each neuron. The spontaneous activity of neurons of the caudate nucleus showed considerable variability in time and its mean frequency varied for different neurons from 0.5 to 20 spikes/sec. Depending on the temporal pattern of the spikes and also on the statistical indices, spontaneous unit activity in the caudate nucleus was conventionally divided into two types: single and grouped. A switch from one type of activity to the other was observed for the same neuron. On the basis of the data as a whole it is impossible to regard the spontaneous unit activity of the caudate nucleus as a simple random (Poissonian) spike train.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 9, No. 4, pp. 369–376, July–August, 1977.     

Effect of destruction of afferent inputs on spontaneous unit activity and character of neuronal interconnection in the rat neostriatum

The effect of destruction of afferent inputs on relations between types of spontaneous unit activity, its mean frequency, the distribution of minimal and maximal intervals, and the character of neuronal interconnection in the neostriatum was studied in acute experiments on rats immobilized with D-tubocurarine. In addition, spontaneous activity derived from neurons in slices of rat neostriatum was analyzed. Spontaneous activity of grouped type was not observed, and no positive symmetrical maxima in the zero region were present on graphs of cross-correlation function. The results of the investigation showed that the grouped type of spontaneous activity is determined by activity of the cortical input whereas activity of the thalamic input has a tendency to prevent the development of this type of neostriatal unit activity. Activation of the cortical input also was shown to be probably responsible for the presence of a positive symmetrical peak on the cross-correlation function graph for neurons with the grouped type of spontaneous activity.Institute of Biological Physics, Academy of Sciences of the USSR, Puchchino-on-Oka. Translated from Neirofiziologiya, Vol. 16, No. 1, pp. 110–115, January–February, 1984.     

Responses of caudate neurons to clicks in chronic experiments on cats

Spontaneous and evoked unit activity in response to repeated application of clicks at a frequency of 0.3–2.0 Hz in the caudate nucleus was studied by an extracellular recording technique in chronic experiments on cats. Four types of spontaneous unit activity in the caudate nucleus were distinguished. Altogether 44% of neurons tested responded by changes in spontaneous activity to clicks. Five types of responses of caudate neurons to clicks were discovered: phasic excitation, phasic inhibition, tonic activation, tonic inhibition, and mixed tonic responses; the commonest type was tonic activation. During prolonged stimulation by clicks extinction of the phasic responses was not observed. Complete or partial extinction of tonic responses in the course of frequent repetition of stimulation was observed in 33% of responding neurons. The question of possible convergence of specific and nonspecific influences on caudate neurons is discussed.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 12, No. 1, pp. 28–35, January–February, 1980.     

Analysis of unit activity in the cat lateral geniculate body

Spontaneous and evoked single unit activity of lateral geniculate body neurons was recorded extracellularly in acute experiments on cats. Eight groups of neurons differing in the durations of the minimal and mean interspike intervals of spontaneous unit activity, and in the latent period and duration of the first volley of spikes of evoked activity, were distinguished by analysis of the data. On the basis of this classification a scheme for interaction between neurons of the lateral geniculate body is suggested.Institute of General Pathology and Pathological Physiology, Academy of Medical Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 10, No. 1, pp. 30–37, January–February, 1978.     

Convergence of autonomic,somatic, and vestibular afferent impulses on single units of the medullary vasomotor center of the cat

Responses of vasomotor neurons of the cat medulla to electrical stimulation of the depressor nerve and of mixed nerves of the limbs and to adequate stimulation of the vestibular apparatus were investigated. Evoked unit activity was demonstrated as groups of action potentials followed by inhibition of spontaneous activity. Three types of unit responses to stimulation of the depressor nerve and somatic afferent fibers and changes in unit activity in response to vestibular stimulation are described. The features distinguishing the convergence of afferent impulses on vasomotor neurons are discussed.Institute of Medico-Biological Problems, Ministry of Health of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 5, No. 5, pp. 460–467, September–October, 1973.     

Some characteristics of unit activity in the frontal cortex of alert monkeys

Spontaneous activity of frontal cortical neurons (middle part of sulcus principalis) and their responses to stimuli of different biological significance were studied in alert monkeys. The region studied is characterized by a lower level of spontaneous activity than the motor cortex. Fluctuations in the level of spontaneous activity are connected with changes in the experimental situation. Two types of unit responses were distinguished to repetitive stimulation: preservation of responses and habituation. The type of unit response depends on the relationship of the stimuli to the animal's motivational sphere.A. A. Ukhtomskii Physiological Research Institute, A. A. Zhdanov Leningrad State University. Translated from Neirofiziologiya, Vol. 12, No. 1, pp. 3–12, January–February, 1980.     

Hypothalamic influences on unit activity in the cat sensomotor cortex

Experiments on unanesthetized, immobilized cats showed different effects of individual hypothalamic nuclei on spontaneous unit activity in the sensomotor cortex. Compared with the posterior hypothalamic nucleus (PHN) and its anteromedial region (AMH), in response to stimulation of the lateral hypothalamic nucleus (LHN) changes in spontaneous activity were more frequently found. The ratio between activation and inhibitory responses was 36 and 36% for AMH, 51 and 30% for LHN, and 47 and 28% for PHN. An approximately equal number of sensomotor neurons (27–34%) gave tonic responses. Phasic changes in spontaneous activity were observed more often in response to stimulation of LHN, less frequently to stimulation of AMH and PHN. Responses of "nonpyramidal" neurons to stimulation of AMH and LHN were identical. "Pyramidal" units were more sensitive to LHN stimulation. Variations in hypothalamic effects depending on the type of response of sensomotor neurons to sensory stimuli were detected. Cells with tonic responses were more susceptible to influences of LHN and AMH than cells which responded by phasic changes in spontaneous activity to sensory stimuli. Fewer still positive responses were recorded in areactive neurons.Medical Institute, Chita. Translated from Neirofiziologiya, Vol. 4, No. 2, pp. 115–122, March–April, 1972.     

Characteristics of unit responses of the cat cerebellar cortex to acoustic stimuli

Investigation of unit responses of the cerebellar cortex (lobules VI–VII of the vermis) to acoustic stimulation showed that the great majority of neurons responded by a discharge of one spike or a group of spikes with a latent period of 10–40 msec and with a low fluctuation value. Neurons identified as Purkinje cells responded to sound either by inhibition of spontaneous activity or by a "climbing fiber response" with a latent period of 40–60 msec and with a high fluctuation value. In 4 of 80 neurons a prolonged (lasting about 1 sec or more), variable response with a latent period of 225–580 msec was observed. The minimal thresholds of unit responses to acoustic stimuli were distributed within the range from –7 to 77 dB, with a mode from 20 to 50 dB. All the characteristics of the cerebellar unit responses studied were independent of the intensity, duration, and frequency of the sound, like neurons of short-latency type in the inferior colliculi. In certain properties — firing pattern, latent period, and threshold of response — the cerebellar neurons resemble neurons of higher levels of the auditory system: the medial geniculate body and auditory cortex.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 5, No. 1, pp. 3–12, January–February, 1973.     

Effect of extracellular polarization on unit activity in the lateral geniculate bodies

Unit responses of the lateral geniculate bodies (LGB) to polarization of the cells through the recording microelectrode were investigated in acute experiments on cats anesthetized with Nembutal. Under the influence of anodic polarization the firing rate of the LGB cells clearly increased. Complete adaptation of the cells to the polarizing current was not observed during the time intervals investigated (5–10 min). Cathodic polarization by a current of 5–50 nA induced inhibitory effects; neurons with a single type of spontaneous activity under these circumstances generated volleys of 2–5 spikes. Off-responses were recorded in 75–85% of neurons. It is postulated that complex changes in unit activity produced by polarization may be due to the structural characteristics of the functional connections of the LGB neurons investigated. The change to grouped activity on the part of many of the neurons under the influence of cathodic polarization is evidently explained by the specific functional pattern of the synaptic system of the LGB cells.Institute of Experimental Medicine, Academy of Medical Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 4, No. 2, pp. 130–140, March–April, 1972.     

Unit activity of the septum and hippocampus transplanted alone or together into the anterior chamber of the rat eye

Unit activity of grafts of the septum and hippocampus, developing for 3–6 months in the anterior chamber of the eye was investigated in acute experiments on curarized orcerveau isolé rats. Whereas neurons in the transplanted septum had spontaneous activity of irregular, regular, or rhythmic bursting type, activity was absent in hippocampal grafts or consisted of very infrequent synchronized population sites. If grafts of the septum and hippocampus developed together and contact was established between them, the same types of activity developed in the hippocampus as in the septum. In many paired grafts spontaneous epileptic phenomena were observed; they were easily provoked also by electrical stimulation of one of the grafts. Superfusion with medium with a high Mg⁺⁺ concentration and low Ca⁺⁺ concentration abolished spontaneous activity in most neurons of hippocampal but not septal grafts, and also suppressed some of the epileptic phenomena, evidence of the leading role of the septum in the organization of spontaneous hippocampal unit activity.Institute of Biological Physics, Academy of Sciences of the USSR, Pushchino-on-Oka. Translated from Neirofiziologiya, Vol. 17, No. 1, pp. 61–69, January–February, 1985.     

Synaptic mechanisms of spike generation in bursts by neurons of the carp tectum and olfactory bulb

Synaptic mechanisms of burst activity generation in certain neurons of the tectum opticum and mechanisms of generation of stimulation-induced group discharges by certain secondary neurons of the olfactory bulb were analyzed in carp (Cyprinus carpio L.). Spikes of the spontaneous discharge in neurons of the tectum were accompanied by depolarizing after-potentials, which caused the burst discharges of these cells. Evidence is given in support of the synaptic nature of the after-potential; it is suggested that it is generated by a recurrent collateral mechanism. Synaptic bombardment causing the appearance of a group discharge in olfactory bulb neurons and groups of spikes in their spontaneous activity was found to be intermittent in character. These features of unit activity in the olfactory bulb are shown to be connected with the presence of excitatory synaptic interaction between several neurons, probably dendro-dendritic in nature.M. V. Lomonosov Moscow State University. Translated from Neirofiziologiay, Vol. 14, No. 5, pp. 483–490, September–October, 1982.     

Electrophysiological investigation of central neurons of the electroreceptor system of the skate

Bioelectrical responses of acoustico-lateral neurons to electrical stimulation of the ampullae of Lorenzini were investigated in acute experiments on the anesthetized Black Sea skateTrigon pastinaca. Three types of responses were found: a primary composite response, prolonged activity, and single unit activity. Excitation of the neurons corresponded to a more marked negative phase, and inhibition to a more marked positive phase of the primary response. The thresholds of the unit responses to adequate electrical stimulation were 10^–9–10^–10 A/mm² and the minimal latent period 20 msec. The spontaneous activity of some neurons clearly depended on the animal's respiration. The character of the response depended on stimulus polarity, as reflected in the appearance of on- and off-responses. A tonic type of response with features of adaptation was predominant. The dependence of some response parameters (latent period of on- and off-responses, firing rate, duration of the contrast interval, response thresholds) on those of the stimulus is analyzed. The mechanisms of these bioelectrical responses are discussed.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol.6, No.1, pp.59–67, January–February, 1974.     

Dynamics of single unit activity in the association cortex of waking cats during defensive conditioning

Responses of neurons in association area 5 during defensive conditioning to acoustic stimulation were studied in chronic experiments on cats. As a rule the neurons responded by excitation to presentation of conditioned and unconditioned stimuli. During the conditioned reflex unit responses usually appeared in the first 50 msec after the beginning of acoustic stimulation, i.e., they were connected with the action of the conditioned stimulus and not with manifestations of conditioned-reflex motion. The most significant changes in responses of cortical association units were observed in the initial period of conditioning. During stabilization of the conditioned reflex, responses of some neurons became stabilized, whereas in other neurons the spontaneous activity and intensity of responses increased, and in a third group the response to one of the stimuli disappeared. This last result indicates a switch during conditioning from polysensory unit responses to monosensory specialized responses. Extinctive inhibition was found to consist of a gradual decrease in the level of the spike discharge and its approximation to spontaneous activity, i.e., to be passive in character.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 10, No. 6, pp. 563–572, November–December, 1978.     

Changes in the functional organization of the lateral geniculate body after tetanus toxin injection

Changes in unit activity in the lateral geniculate body during formation of a generator of pathologically enhanced excitation as a result of local injection of tetanus toxin into this nucleus were investigated in unanesthetized cats. To assess changes taking place a classification of geniculate neurons in normal animals obtained by analysis of interspike interval histograms of spontaneous activity and poststimulus histograms of unit activity evoked by photic stimulation was used. As a result of the action of the toxin substantial changes were observed in the quantitative distribution of the neurons by groups. A new group of neurons with a considerably increased duration of the first spike volley also was identified. The appearance of these neurons is connected with disappearance of the inhibitory pause in the overwhelming majority of relay neurons of the nucleus.Institute of General Pathology and Pathological Physiology, Academy of Medical Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 10, No. 1, pp. 38–43, January–February, 1978.     

Electrophysiological investigation of medullary neurons connected with lateral line organs of the catfish (Ictalurus nebulosus)

Unit responses in the acoustic-lateral region of the medulla to electrical and mechanical stimulation of the lateral line organs were investigated in acute experiments on curarized catfish. Of the total number of neurons 70% possessed spontaneous activity. An electrical stimulus evoked a tonic response both in spontaneously active and in "silent" cells. Three main types of firing pattern of the neurons were distinguished: fast-adapting, slow-adapting, and grouped. As regards the relation of the neurons to polarity of the stimulus they were subdivided into two groups. The thresholds of unit responses to electrical stimulation varied considerably: from 2.5·10^–9 to 5·10^–12 A/mm². The effect of intensity of the electrical stimulation on unit responses in the medulla is analyzed. The precise dependence of on- and off-responses of each neuron on stimulus intensity of any polarity was determined. The neurons were shown to be sensitive to both electrical and mechanical stimuli. It is postulated that this phenomenon is due to convergence of impulses from electrical and mechanical receptors of the lateral line on the neurons. The properties of the central neurons are compared with those of the peripheral electroreceptor system in catfish.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 5, No. 2, pp. 156–163, March–April, 1973.     

Investigation of detector properties of neurons in the visual system of the rabbit

Responses of neurons in the superior colliculi and visual cortex of rabbits to a black and white boundary moving in different directions were investigated. Neurons responding clearly to presentation of the black and white boundary moving in one direction (movement in the opposite direction led to inhibition of spontaneous activity) and neurons giving well-defined maximal responses to movement of this boundary in 2 or 3 directions were found in the superior colliculi. Neurons with a marked maximal response to the stimulus moving in 1 or 2 directions were found in the visual cortex. Nembutal has a powerful effect on the quantitative detector properties of visual cortical neurons and sometimes may completely inhibit unit activity.V. Kapsukas Vilnius State University. Translated from Neirofiziologiya, Vol. 4, No. 1, pp. 61–67, January–February, 1972.     

Relations between spontaneous and evoked unit activity in the cat auditory cortex during defensive conditioning to acoustic stimulation

Spontaneous and evoked unit activity in the auditory cortex of waking cats was studied during defensive conditioning. An increase in the frequency of spontaneous activity arising under these circumstances in many neurons was frequently observed after presentation of the first combinations (before the appearance of effector responses), and reached its highest probability after thirty combinations (parallel with the appearance of conditioned-reflex motor responses). Comparison of the mean frequencies of spontaneous activity and the corresponding evoked activity reveals, on the one hand, a nonlinear relationship between them and, on the other hand, dominance of responses of activation type and weaker representation of inhibitory responses. Several levels of spontaneous activity were discovered, corresponding to particular zones of mean frequencies of evoked activity. Analysis of spontaneous activity before and after presentation of the conditioned stimulus (the after-period) showed that the mean frequencies in both these periods were very similar in the case of a stable conditioned reflex. In that case preservation of the structure of the spike train of several neurons was observed for stable time intervals (ranging from tens of minutes to 1–3 h).A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 12, No. 3, pp. 227–238, May– June, 1980.     

Effect of division of cortico — Subcortical connections on spontaneous unit activity in the lateral geniculate body and visual cortex

In acute experiments on cats the cortical projection connections of one hemisphere were divided, and the principal characteristics of spontaneous unit activity were studied in the lateral geniculate bodies (LGB) and visual cortex (area 17). After the operation the same types of spontaneous activity were found in these structures as in the intact structures. However, the number of spontaneously active cells in the structures on the side of the operation was considerably reduced. In the isolated visual cortex there was a redistribution of the relative percentage of neurons with spontaneous activity in the various layers: these cells were most numerous in layers IV–V, whereas in the normal cortex they are more numerous in layers III–IV. The mean firing rate of all types of cells was reduced in the isolated cortex. In LGB on the side of the operation a relative decrease in the number of cells with a high firing rate was observed.Institute of Experimental Medicine, Academy of Medical Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 4, No. 1, pp. 47–53, January–February, 1972.     

Effect of somatostatin on neurons of the partially deafferented rabbit amygdala

Changes in spontaneous activity of 291 neurons in the rabbit amygdala were analyzed during microelectrophoretic application of somatostatin under pentobarbital anesthesia. Somatostatin was found both to enhance and to inhibit the spontaneous activity of these cells, by contrast with the exclusively inhibitory effect on spontaneous activity of hypothalamic neurons described previously. After partial chronic deafferentiation of the amygdala, 76% of 103 neurons responded to somatostatin application; 90% of the responding cells, in which the initial spontaneous firing rate was 6–20 spikes/sec, responded by more rapid firing, and only 10% of neurons (with an initial spontaneous discharge frequency of over 20 spikes/sec) showed a decrease in firing rate. Neuronal responses in the amygdala to somatostatin, glutamate, and noradrenalin are compared. Preliminary application of noradrenalin caused an increase in the number of inhibitory responses on subsequent application of somatostatin to the same cell.M. V. Lomonosov Moscow State University. Translated from Neirofiziologiya, Vol. 14, No. 6, pp. 601–607, November–December, 1982.