Synaptic processes in pericruciate cortical neurons evoked by pyramidal tract stimulation in cats

In cats anesthetized with chloralose and pentobarbital and immobilized with D-tubocurarine activity of 423 pericruciate cortical neurons was recorded (342 extra- and 81 intracellularly); 78 neurons had spontaneous activity. Stimulation of the pyramidal tract evoked antidromic action potentials in the pyramidal neurons with a latent period of 0.5–16.0 msec. Recurrent and lateral PSPs also developed both in pyramidal and in unidentified neurons in all layers of the cortex; IPSPs were recorded in 46.7% of neurons, EPSPs in 21.0%, mixed reponses in 26.0%, and no visible changes were found in 6.3%. The latent period of the IPSPs was 1.5–14.0 msec, their amplitude 1.3–17.0 mV, their rise time from 4 to 18 msec, and their duration 18–120 msec (sometimes up to 250–500 msec). In 30% of cases in which IPSPs appeared, their course was divided into two phases: fast (duration 10–20 msec) and slow. EPSPs developed after a latent period of 2.6–29.0 msec; their amplitude was 1.0–7.8 mV and their duration from 10.0 to 50.0 msec. In 51.2% of spontaneously active neurons the antidromic volley inhibited their activity in the course of 200–400 msec, in 19.5% it stimulated their activity, in 7.4% it had a mixed effect, and in 21.9% no visible change took place in their activity. The role and participation of axon collaterals of pyramidal neurons and of the interneuronal system in the formation of these processes are discussed.     

Synaptic processes in facial motoneurons evoked by stimulation of the caudal trigeminal nucleus

Field potentials and postsynaptic potentials of facial motoneurons evoked by stimulation of the caudal trigeminal nucleus were investigated in acute experiments on cats by extra- and intra-cellular recording. Pre- and postsynaptic components of field potentials were found. Four types of motoneuron response were distinguished: EPSP with generation of single action potentials; a gradual shift of depolarization inducing grouped action potentials; a rhythmic discharge of action potentials arising at a low level of depolarization; and EPSPs or EPSP-IPSP sequences. The monosynaptic and (chiefly) polysynaptic nature of these responses was demonstrated. The possible mechanism of afferent control over facial motoneurons are discussed.L. A. Orbeli Institute of Physiology, Academy of Sciences of the Armenian SSR, Erevan. Translated from Neirofiziologiya, Vol. 12, No. 3, pp. 272–282, May–June, 1980.     

Synaptic processes in red nucleus neurons produced by stimulating the entopeduncular nucleus and globus pallidus in the cat

Synaptic processes in red nucleus neurons produced by stimulating the entoped-uncular nucleus and the globus pallidus were investigated during acute experiments on cats using intracellular recording techniques. It was found that stimulating these structures produces mono- and polysynaptic excitation of rubrospinal neurons. Analysis of the time parameters of the EPSP recordings obtained suggested that they were produced by activation of the axosomatic and axodendritic synapses of rubrospinal neurons. Mechanisms of basal ganglia involvement in the integrating of red nucleus activity are examined.L. A. Orbeli Institute of Physiology, Academy of Sciences of the Armenian SSR, Erevan. Translated from Neirofiziologiya, Vol. 17, No. 6, pp. 809–817, November–December, 1985.     

Synaptic effects evoked in motoneurons by stimulation of single propriospinal neurons

Experiments on cats with simultaneous extracellular recording, stimulation of single propriospinal neurons, and intracellular recording of unitary postsynaptic potentials from motoneurons, followed by computer averaging showed that direct stimulation of individual propriospinal cells receiving mono- and disynaptic influences from the medial reticular formation can evoke monosynaptic EPSPs and IPSPs in lower lumbar motoneurons. The amplitude of these EPSPs was 49.6±6.0 and of the IPSPs 28.9±2.9 µV and their synaptic delay was 0.34±0.05 msec. The same propriospinal neuron of the ventral horn of the upper lumbar segments may be connected with several motoneurons of the hind limb muscles.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 9, No. 3, pp. 300–306, May–June, 1977.     

损毁或高频刺激丘脑底核对黑质神经元的保护作用

目的：探讨损毁或高频刺激丘脑底核（STN）对帕金森病（PD）大鼠黑质致密部神经元的保护作用及其可能的发生机制。方法：应用每羟基多巴胺（6-OHDA）制备偏侧PD大鼠模型,于丘脑底核（STN）区分别植入刺激电极给以高频电刺激,或注入鹅膏蕈氨酸（IA）进行损毁后,观察PD大鼠行为改变;运用尼氏（Nissl）染色、DNA原位末端标记技术（TUNEL）、免疫组化方法检测并分析黑质致密部（SNc）神经元存活及凋亡发生情况。结果：刺激组黑质致密部凋亡神经元的阳性率显著低于模型组与损毁组（P〈0．05）。与正常大鼠相比,刺激组Bel-2染色呈强阳性,Bel-2／Bax比值较高,模型组、损毁组SNc区的Bcl-2表达有所下调,Bax表达增加,Bcl-2／Bax比值降低（P〈0．05）,虽然损毁组SNc的凋亡阳性神经元少于模型组（P〈0．05）,但二者的Bel-2、Bax的表达及Bel-2／Bax比值无显著性差异（P〉0．05）。结论：损毁或高频刺激SIN对PD大鼠黑质SNc神经元存在保护作用,高频刺激的长期保护作用更为明显。     

Antidromic and synaptic potentials evoked in neurons of the lateral vestibular nucleus by stimulation of the interstitial nucleus of Cajal and Darkshevich's nucleus in cats

Effects of stimulation of the interstitial nucleus of Cajal and Darkshevich's nucleus on unit activity in the lateral vestibular nucleus of Dieters were investigated in cats anesthetized with pentobarbital. Stimulation of the above-mentioned structures was shown to lead to antidromic and orthodromic activation of Dieters neurons. Axon collateral of vestibular neurons, ascending to the above-mentioned brain-stem structures were discovered electrophysiologically. Stimulation of the nuclei of Cajal and Darkshevich was shown to evoke mono- and polysynaptic EPSPs and IPSPs in neurons of Deiters nucleus. Convergence of influences from both nuclei on the neurons studied was demonstrated. The particular features and functional role of the influences observed are discussed.L. A. Orbeli Institute of Physiology, Academy of Sciences of the Armenian SSR, Erevan. Translated from Neirofiziologiya, Vol. 16, No. 6, pp. 822–829, November–December, 1984.     

Feeding behaviour following substantia nigra and globus pallidus stimulation in chronic cats

It is known that the lesion of the nigrostriatal and pallidofugal systems causes an experimental condition comparable to the hypothalamic sindrome, with severe aphagia and adipsia. It was considered of interest to study the effects of the low frequency long-duration stimulation of the substantia nigra and the globus pallidus on feeding behaviour. Experiments were performed on eight chronic cats with electrodes implanted in SN (pars compacta) and in the GP (pars externa). In the 2 hours of observation the food intake and the number of food-taking acts were calculated. The stimulation was induced continuously in the former hour. The modification in food intake, also on the basis of somatic behavioural observations may be ascribed to motor impairment rather than to involvement of a motivational state.     

Modality distribution of sensory neurons in the feline caudate nucleus and the substantia nigra

Despite extensive analysis of the motor functions of the basal ganglia and the fact that multisensory information processing appears critical for the execution of their behavioral action, little is known concerning the sensory functions of the caudate nucleus (CN) and the substantia nigra (SN). In the present study, we set out to describe the sensory modality distribution and to determine the proportions of multisensory units within the CN and the SN. The separate single sensory modality tests demonstrated that a majority of the neurons responded to only one modality, so that they seemed to be unimodal. In contrast with these findings, a large proportion of these neurons exhibited significant multisensory cross-modal interactions. Thus, these neurons should also be classified as multisensory. Our results suggest that a surprisingly high proportion of sensory neurons in the basal ganglia are multisensory, and demonstrate that an analysis without a consideration of multisensory cross-modal interactions may strongly underrepresent the number of multisensory units. We conclude that a majority of the sensory neurons in the CN and SN process multisensory information and only a minority of these units are clearly unimodal.     

Synaptic processes produced in cat rubrospinal neurons by stimulating the cerebellar nucleus interprositus

The activity produced in red nucleus rubrospinal neurons by stimulating the cerebellar nucleus interpositus was investigated in cats anesthetized with nembutal. Analysis of field potentials together with summated and single EPSP following paired and frequency stimulation of this structure revealed facilitation at cerebello-rubral synapses. It was found that this facilitation was not mediated by changes in presynaptic volleys. It is suggested that modification of the effectiveness of transmission is determined by characteristic features of the operation of cerebellar synapses on red nucleus neurons.L. A. Orbeli Institute of Physiology, Academy of Sciences of the Armenian SSR, Erevan. Translated from Neirofiziologiya, Vol. 19, No. 5, pp. 630–636, September–October, 1987.     

Responses of cat cerebellar cortical neurons to stimulation of the caudate nucleus,globus pallidus,and substantia nigra

Stimulation of the head of the caudate nucleus in cats anesthetized with chloralose and pentobarbital evoked spike responses of the Purkinje cells and other cerebellar cortical neurons in the paramedian lobes, lobulus simplex, and the tuber of the vermis. Phasic responses in the form of simple discharges (on account of activation of the neurons through mossy fibers) appeared mainly after a latent period of 5–12 and 14–20 msec; the latent period of responses consisting of complex discharges (on account of activation of Purkinje cells through climbing fibers) was 5–6, 9–22 msec, or more. Depending on the latent period, the spike responses differed in their rhythm of generation. In response to stimulation of the caudate nucleus with a frequency of 4–6/sec recruiting responses were found. An inhibitory pause was an invariable component of the tonic responses. During stimulation of the globus pallidus responses of the same types (phasic and tonic) appeared as during stimulation of the caudate nucleus, but they differed in the distribution of the neurons by latent period of spike responses. The minimal latent period was 4 msec. Recruiting also was observed during repetitive stimulation of the globus pallidus. During stimulation of the substantia nigra Pukinje cells activated by climbing fibers responded. Evoked complex discharges appeared after a stable latent period of 8.5±0.3 msec. Arguments are put forward regarding the role of the substantia nigra, the globus pallidus, nuclei of the inferior olive, and also the thalamic nuclei in the mechanism of caudato-cerebellar oligosynaptic and polysynaptic connections.N. I. Pirogov Medical Institute, Vinnitsa. Translated from Neirofiziologiya, Vol. 10, No. 4, pp. 375–384, July–August, 1978.     

Dopamine D-2 receptor-mediated excitation of caudate nucleus neurons from the substantia nigra

Microiontophoretic studies using cats anesthetized with alpha-chloralose were performed to elucidate whether the excitatory response of caudate nucleus (CN) neurons upon stimulation of the pars compacta of the substantia nigra (SN) is mediated by the dopamine D-1 or D-2 receptor. There were rare convergent inputs from the SN and motor cortex (MC) in the CN neurons. Iontophoretic application of haloperidol and domperidone (dopamine D-2 receptor antagonist) produced dose-dependent inhibition of spikes elicited by SN stimulation in 25 of 42 and 50 of 82 CN neurons, respectively, however, no alterations of spikes elicited by MC stimulation occurred in any 11 neurons tested. Iontophoretically applied SCH 23390 (D-1 antagonist) did not inhibit the SN-induced spikes in any CN neurons, of which spikes were inhibited by domperidone. These results suggest that the SN-induced spikes are mediated by dopamine, which acts on postsynaptic D-2 receptors.     

Effects of substantia nigra stimulation on high- and low-threshold response in reticular neurons

The effects of electrical stimulation of the substantia nigra (NS) pars compacta on somatosensory response in pontine neurons (from n. reticularis pontis caudalis) and reticular cells (n. reticularis gigantocellularis) were investigated in chloralosed cats. These effects were found to be inhibitory and tended mainly towards high-threshold activation of reticular neurons: responses induced by activation of high-threshold somatic efferents were those mainly inhibited in 71% of test cells. Inhibition of low-threshold response induced by tactile stimuli emerged less clearly or not at all. Potential mechanisms and the functional significance of these SN influences on reticular neurons are discussed.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 21, No. 6, pp. 772–780, November–December.     

Synaptic processes in the neurons of Clarke's column evoked by an antidromic volley from the dorsolateral column

In cats under nembutal-chloralose anaesthesia we investigated the response of neurons of Clarke's column to stimulation of axons ascending in the dorsal part of the lateral funiculus. Excitation of the descending fibers of the funiculus was prevented either by an ipsilateral hemisection of the thoracic cord carried out 7–10 days previously, which caused them to degenerate, or by stimulation of ascending axons in the region of the restiform bodies. It was found that with both kinds of stimulation records could be obtained from neurons in Clarke's column in which a descending volley causes not antidromic action potentials but primary excitatory postsynaptic potentials (EPSP). The length of the latent period of the EPSP (10–15 msec) suggests that they are monosynaptic. Such neurons may also be activated by low- or high-threshold afferents from various muscles; evidently they correspond to those described by Retheyi [14] as "edge" neurons on which terminate collaterals of axons ascending in the dorsal spinocerebellar tract (DSCT). In some of the neurons of the DSCT whose axons are distinguished by a low conduction velocity, stimulation of the dorsolateral funiculus caused not only antidromic spikes but also EPSP's following after them, and it would seem that the "edge" neurons were involved in their formation. We consider the possible functional role of a negative feed back loop formed by axon collaterals of neurons of the DSCT and by the "edge" neurons.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 2, No. 3, pp. 269–278, May–June, 1970.     

The role of substantia nigra in the cognitive activity in cats

The role of substantia nigra (SN) in the cat cognitive activity of different complexity degree, was investigated by original technique. Neurosurgery or neurochemical SN switching off leads to reliable disturbances of condition, reflexes, generalization and abstraction. Rehabilitation was possible after pharmacological stimulation of dopaminergic, partly GABA-ergic, and cholinergic systems. Stimulation of serotonin system was ineffective.     

Intranuclear ubiquitin-immunopositive structures in human substantia nigra neurons

Marinesco bodies were discovered in substantia nigra neurons of human brain in 1902. The relationships between these intranuclear inclusions and the other structures of the cellular nucleus are still obscure. The aim of this study is to elucidate the morphological and cytochemical peculiarities of intranuclear ubiquitin-immunopositive bodies in the substantia nigra neurons of human brain and to evaluate the interconnections of these peculiarities with nucleolus by means of light microscopy, immunocytochemistry, and confocal laser microscopy. It is found that up to 20% of neurons in substantia nigra of human brain contain ubiquitin-immunopositive Marinesco bodies. These rounded structures are 1–8 μm—more often 2–4 μm—in diameter. Only one-third of them are tightly adjacent to the nucleolus. By a method of silver impregnation of argentophilic proteins associated with nucleolar organizer, the absence was shown of argentophilic proteins, which are characteristic for the nucleolus, in Marinesco bodies. Special ubiquitin-positive substantially smaller structures (less than 1 μm) are revealed in the neurons’ nuclei along with Marinesco bodies. These structures are probably the initial forms in the formation of Marinesco bodies. The existence of two types of ubiquitin-immunopositive intranuclear bodies is revealed by means of confocal microscopy: one has high intensity of immunofluorescence, and the other has low intensity. Heterogeneous distribution of immunopositive product is characteristic of the former. The presence of DNA in Marinesco bodies is detected by using SYTOX Green fluorescent dye. The absence of peripheral heterochromatin zone and weak susceptibility to toluidine blue together with the presence of DNA and the absence of argentophilic proteins suggests substantial structural and chemical differences between Marinesco bodies and nucleoli, which argues against the idea that the detected bodies are modified nucleoli.     

Synaptic processes in thoracic motoneurons evoked by visceral impulses

Synaptic processes in various functional groups of thoracic motoneurons (segments T9–T11) were investigated in anesthetized (chloralose and Nembutal), decerebrate, and spinal cats. Visceral stimulation in animals with an intact CNS during artificial respiration evokes the development of primary (latent period under 12 msec) and secondary (latent period over 30 msec) PSPs in the motoneurons. The primary PSPs consist of early and principal components. The early component is due to excitation of group A₂ and A visceral afferents, the principal PSP to excitation of the A group. The principal component in motoneurons of the internal and external intercostal muscles and abdominal muscles is excitatory, while in motoneurons innervating the spinal muscles it is excitatory—inhibitory or inhibitory. The secondary PSPs as a rule are excitatory and are due to activation of fibers of the A group. During natural respiration the primary PSPs of motoneurons of the intercostal muscles and abdominal muscles are predominantly inhibitory. In spinal animals no secondary responses are present and the primary becomes entirely excitatory regardless of the functional class of the motoneurons. The mechanisms of reciprocal activation of thoracic motoneurons by visceral impulses in animals during artificial and natural respiration are discussed.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 4, No. 3, pp. 286–295, May–June, 1972.