Synaptic processes evoked in red nucleus neurons by stimulation of the substantia nigra in cats

Synaptic processes in red nucleus neurons evoked by stimulation of different parts of the substantia nigra and nucleus interpositus of the cerebellum were investigated by an intracellular recording method in acute experiments on cats. Stimulation of this sort was shown to induce mono- and polysynaptic activation of rubrospinal neurons. Monosynaptic cerebellar and nigral excitatory influences were found to be very similar. These influences were shown to converge on the same rubrospinal neurons. The functional significance of inputs from the substantia nigra to the red nucleus for movement performance is discussed.L. A. Orbeli Institute of Physiology, Academy of Sciences of the Armenian SSR, Erevan. Translated from Neirofiziologiya, Vol. 13, No. 2, pp. 149–158, March–April, 1981.     

Responses of descending interneurons to stimulation of wind head receptors in locust

Responses of descending interneurons of the thoracic nerve chain ofLocusta migratoria L. to wind stimulation of the head receptors concerned with the activation of the insect's flight were investigated by means of extracellular microelectrode recordings from their axons. Altogether 11 types of descending effects transmitted by these interneurons to neurons of the segmental ganglia were detected. Ipsilateral and contralateral wind stimulation of the receptors can not only activate hitherto silent interneurons but also effectively modify the character of discharges from spontaneously active, discharging neurons. This influence may be either excitatory (increased spontaneous firing rate) or inhibitory (decreased rate or total abolition of spontaneous discharges). Some descending interneurons give rise not only to on-responses but also to typical off-responses to stimulation. The possible functional role of some of the observed effects in the mechanisms triggering and maintaining the insect's flight is discussed.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Biological Research Institute, Hungarian Academy of Sciences, Tihany. Translated from Neirofiziologiya, Vol. 5, No. 6, pp. 602–610, November–December, 1973.     

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.     

Rhythmic activity evoked by adequate stimulation in the fish retina

The distribution of evoked rhythmic responses on the surface and in the depths of the retina of the carp (Cyprinus carpio) and tench (Tinca tinca) and the dependence of the amplitude — frequency characteristics of the response on stimulus intensity and duration were investigated by recording the local electroretinogram and unit activity of the ganglion cells. Rhythmic on- and off-responses to light differed in various characteristics, including their distribution between the cellular and synaptic layers of the retina. The frequency, amplitude, and number of waves in the response were found to depend on the parameters of the stimulus. On-, off-, and on — off-ganglion cells were represented in the records. Their spike discharge usually corresponded to a phase angle of the negative half-wave of the rhythmic response of close to /2. The results of experiments in which conduction along the optic nerve was blocked by cold showed that the system of generation of the rhythmic response in the retina is under the tonic influence of the centers.M. V. Lomonosov Moscow State University. Translated from Neirofiziologiya, Vol. 9, No. 1, pp. 61–68, January–February, 1977.     

Effects of dopamine on background and evoked activity in interneurons of a spinal cord segment isolated from infant rats

The effects of 1·10^–5–1·10^–3 M dopamine on background and evoked interneuronal-activity was investigated during experiments on a spinal cord segment isolated from 11–18-day old infnat rats. Dopamine induced an increase in background firing activity rate in 52.5% and a reduced rate in 42.5% of the total sample of responding cells. Dopamine exerted a primarily inhibitory effect on interneuronal activity invoked by dorsal root stimulation, as witnessed by the reduced amplitude of the postsynaptic component of field potentials in the dorsal horn together with the fact that invoked activity was depressed in 66.7% of total interneurons responding to dopamine and facilitated in only 33.3% of these cells. All dopamine-induced effects were reversible and dose-dependent. Dopamine-induced effects disappeared after superfusing the brain with a solution containing 0–0.1 mM Ca²⁺ and 2 mM Mn²⁺, suggesting that this response is of transsynaptic origin. In other cells the excitatory or inhibitory action of dopamine also persisted in a medium blocking synaptic transmission; this would indicate the possibility of dopamine exerting depolarizing and hyperpolarizing effects on the interneuron membrane directly. Contrasting responses to dopamine in interneurons may be attributed to the presence of different types of dopamine receptors in the spinal cord.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 21, No. 1, pp. 7–16, January–February, 1989.     

Lateral spinal nucleus of the rat: NADPH-diaphorase activity and Fos expression after noxious peripheral stimulation

Results of electrophysiological studies suggest a significant role of the lateral spinal nucleus (LSpN) in the transmission of nociceptive signals. In our study, the presence of Fos immunoreactivity and NADPH-diaphorase positivity was observed in the rat LSpN following noxious peripheral subcutaneous stimulation. Formalin-induced unilateral hindpaw stimulation in the rat caused bilateral NADPH-d reactivity and ipsilateral Fos expression in this nucleus. In the LSpN of the L3–L5 segments of stimulated rats, on average, 4.1 ± 1.2 NADPH-d-positive, NADPH-d(+), 5.1+1.8 Fos-immunoreactive, Fos(+), and 3.0 ± 1.1 double-labeled neurons per 25-μm-thick section were found unilaterally. A close anatomical relationship between NADPH-d(+) processes and Fos(+) cell nuclei in the LSpN was also observed following noxious peripheral stimulation. These neuroanatomical findings support the hypothesis that the LSpN is involved in pain processing and suggest an important role of nitric oxide-mediated signal transduction in this nucleus. Neirofiziologiya/Neurophysiology, Vol. 40, No. 1, pp. 38–42, January–February, 2008.     

Electrotonic and chemical EPSPs evoked in lamprey motoneurons by descending tract and dorsal root afferent stimulation

Postsynaptic responses evoked by stimulation of the descending tract and dorsal roots were investigated by means of intracellular microelectrodes in experiments on preparation of the isolated lamprey spinal cord. Besides giant reticulospinal (Mullerian) axons, a broad spectrum of descending fibers and dorsal-root afferents were shown to form synaptic inputs with both chemical and electrical mechanisms of transmission with motoneurons, as revealed by the sensitivity of the corresponding PSPs to absence of calcium ions and excess of magnesium ions in the external medium. During combined stimulation electrotonic PSPs may have a rapid temporal course characteristic of elementary responses, but they may also lead to smooth and slow depolarization of the postsynaptic membrane, evidence that they may perform not only a mediator but also an integrative function.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 9, No. 5, pp. 512–517, September–October, 1977.     

Auditory brain-stem responses evoked by electrical stimulation of the cochlear nucleus in human subjects

When auditory nerve function is lost due to surgical removal of bilateral acoustic tumors, a sense of hearing may be restored by means of an auditory brain-stem implant (ABI), which electrically stimulates the auditory pathway at the level of the cochlear nucleus. Placement of the stimulating electrodes during surgical implantation may be aided by electrically evoked auditory brain-stem responses (EABRs) recorded intra-operatively. To establish preliminary standards for human EABRs evoked by electrical stimulation of the cochlear nucleus, short-latency evoked potentials were recorded from 6 ABI patients who were either already implanted or undergoing implantation surgery. Neural responses were distinguished from stimulus artifact and equipment artifact by their properties during stimulus polarity reversal and amplitude variation. Other properties contributed to further identification of the evoked potentials as auditory responses (EABRs). The response waveforms generally had 2 or 3 waves. The peak latencies of these waves (approximately 0.3, 1.3, and 2.2 msec) and the brain-stem localization of the region from which they could be elicited are consistent with auditory brain-stem origin.     

Spinal tracts producing slow components of spinal cord potentials evoked by descending volleys in man

Slow negative (N) and slow positive (P) waves are frequently produced in the posterior epidural space at the lumbosacral enlargement by epidural stimulation of the rostral part of human spinal cord. The production of these slow potentials are thought to be responsible for analgesia at the stimulated segment as well as below that level. In order to define the spinal tract which mediates these slow potentials, we stimulated directly or from the epidural space the dorsal, dorsolateral, lateral and ventral columns at the cervical or thoracic level, and epidurally recorded spinal cord potentials (des.SCPs) at the lumbosacral enlargement in 7 patients who underwent spine or spinal cord surgery. The des.SCPs recorded in the lumbosacral enlargement consisted of polyphasic spike potentials followed by slow N and P waves. At a near threshold level of stimulus intensity the slow N and P potentials were consistently elicited only by stimulation of the dorsal column. The slow waves were also produced by intense stimulation of other tracts, but remained significantly (P < 0.05−P <0.01) smaller than those evoked by dorsal column stimulation when compared at the same stimulus intensity. Moreover, the slow P wave could not be elicited even by intense stimulation (10 times the threshold strength for the initial spike potentials) of the ventral column. Thus, the results suggest that the slow N and P waves are mostly mediated by the antidromic impulses descending through the dorsal column.     

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.