Effect of the spinal pain syndrome on pain reactions caused by nociceptive thermal stimuli

It has been shown that the reaction of both limbs to thermal pain stimulation was suppressed during spinal pain syndrome development caused by generators of pathologically enhanced excitation (GPEE) formed in the dorsal horns of the spinal cord lumbosacral segments on one side. The analgetic effect on physiological pain was retained long after pain syndrome disappearance (48 hours), the effect was bilateral and was independent of the type of agent producing GPEE. It was shown that neuronal activity in the antinociceptive system key structure (nucleus raphe dorsal) increases. It is assumed that physiological pain relief is caused by enhanced activity in antinociceptive system structures in pain syndrome.     

An experimental model of deafferented pain in the cat

Deafferentation hyperactivity, produced unilaterally in the neurons of the subnucleus caudalis of the spinal trigeminal nucleus (STNcd) in cats by left Gasserian ganglionectomy, was studied neurochemically and electrophysiologically. Analysis of neuronal activities on both sides of the STNcd was done 11-63 days after the denervation. On the denervated side, 37 (57%) of the 65 neurons identified showed deafferentation hyperactivity. Continuous and spontaneous firing of these hyperactive neurons were inhibited neither by the intraventricular administration of morphine or enkephalinamide nor by the electrical stimulation of periaqueductal gray. In contrast, the facilitation of the pain perceptive neuronal activities in the STNcd of the nondenervated side was remarkably inhibited, both by the administration of the same drugs and by periaqueductal gray stimulation. The deafferentation hyperactivity produced in this experiment in the STNcd of the denervated side might have a close physiological relationship to the deafferented pain of clinical patients.     

伤害性刺激和非伤害性刺激对大鼠丘脑后核神经元电活动的影响

用微电极细胞外记录的方法,观察内脏痛、躯体痛和触觉刺激对大鼠丘脑后核(PO)中770个神经元电活动的影响,其中305(38.3％)个对伤害性刺激起反应,103(13.4％)个对触觉刺激起反应。对伤害性刺激反应的神经元中多数对躯体痛和内脏痛刺激均起反应且反应形式相同,少数反应不同或相反,对触觉刺激反应的神经元中多数也对两种伤害性刺激均起反应,只对触觉刺激反应的神经元很少。     

Chemical stimulation of the thalamic reticular nucleus inhibits the neuronal activity of the posterior insular cortex in rats

Extracellular neuronal responses were recorded from the posterior insular cortex following electrical and chemical stimulation of the thalamic reticular nucleus (Rt) regions. In the present study, most neurons (29/32) were first characterized for their responses to electrical stimulation of the superior laryngeal (SL) nerve or glossopharyngeal (IXth) nerve. In the first experiment, 15 neurons in the posterior insular cortex were examined for their responses to electrical stimulation of the Rt regions. It was found that effective stimulation sites to evoke action potentials in the posterior insular cortex were the ventromedial portion of the Rt and its adjacent regions. In the second experiment, 17 neurons in the posterior insular cortex were examined for their responses by pressure injection of glutamate (Glu) into the Rt regions. Of the 17 neurons, 13 were inhibited in the spontaneous discharge rate following injection of Glu into the Rt, and the remaining four were unaffected. Histologically, it was demonstrated that Glu injection sites for the case of inhibition were located near or within the Rt. On the other hand, the injection sites for all four non-responsive neurons were located outside of the Rt. These data suggest that excitation of the Rt (GABAergic neurons) causes depression of the neuronal activity in the thalamic relay nucleus and then this may in turn induce depressed neuronal activity in the posterior insular cortex. The results here indicate that neuronal activity in the posterior insular cortex is controlled by the Rt, which has been reported in other sensory systems.     

刺激蓝斑及电针对大鼠脊髓背角神经元伤害性反应的影响

以往的工作表明,蓝斑（LC）-去甲肾上腺素能神经元系统在痛觉调制和针刺镇痛中起着重要作用,本文用电生理学方法研究刺激LC和电针对大鼠脊髓背角神经元伤害性反应的影响,其主要结果如下：1、刺激LC或电针有明显抑制脊髓背角神经元伤害性反应的作用。2、损毁中缝大核和腹腔注射纳洛酮并不明显影响刺激LC的抑制效应。3、α2受体激动剂氯压啶能加强刺激LC或电针的抑制效应,而α受体阻断剂酚妥拉明在一定程度上能削弱这种抑制效应,这些实验结果提示,刺激LC和电针可激活LC神经元,通过其下行纤维,在脊髓水平释放NE,通过α2受体,阻断伤害性信息的传递。     

Aortic coarctation hypertension induces fibroblast growth factor-2 immunoreactivity in the stimulated nucleus tractus solitarii

The actions of neurotrophic factors i.e. basic fibroblast growth factor (bFGF, FGF-2) to neurons are related not only to neuronal development and maintenance but also to synaptic plasticity regarding neurotransmission. We analyzed here the levels of FGF-2 immunoreactivity in the nucleus tractus solitarii (NTS) of Wistar Kyoto rats in response to alterations of neuronal activity promoted by the stimulation of the baroreceptor reflex following an aortic coarctation-induced-hypertension. The FGF-2 immunoreactivity (IR) was found in the cytoplasm of the neurons and in the nuclei of the glial cells in the NTS. A large number of NTS neurons expressed FOS immunoreactivity 4 h after coarctation, as an indication of neuronal activity. Stereological methods showed an increased number of FGF-2 immunoreactive (ir) neuronal profiles (90%) and glial profiles (149%) in the NTS of the 72 h aortic coarctated rats. 1-week later, FGF-2 ir neurons were still increased (54%) but no change was found in the number of FGF-2 ir glial profiles. The double immunoperoxidase method revealed that the majority of the FGF-2 ir glial cells was glial fibrillary acidic protein (GFAP) positive astrocytes. GFAP immunohistochemistry showed an astroglial reaction at 72 h time-interval (55%) but not 1 week after stimulation. The number of the cresyl violet positive neurons and OX42 ir profiles (marker of activated microglia) in the NTS of coarctated rats were not different from control by 1 week and 1 month after the surgery, indicating a lack of NTS injury in this period following coarctation hypertension. FGF-2 may be an important neurotrophic factor in areas involved in the control of blood pressure. The increased FGF-2 IR in the NTS cells following neuronal stimulation may represent trophic and plastic adaptive responses in this nucleus in an autocrine/paracrine fashion.     

Involvement of visual specific and association cortex input in the shaping of neostriatal neuron response to visual stimulation in unanesthetized cats

During chronic experiments on unanesthetized cats neuronal response in the caudate nucleus to the presentation of local photic stimuli and electrical stimulation of the specific (field 17) and the association (Clare-Bishop) areas were compared. Stimulation of the Clare-Bishop area proved more effective than stimulating field 17 for neurons of the caudate nucleus; a response was produced in 47% of test neurons in comparison with 8% of units only in the specific area. Lower average values were observed for latency of neuronal response to stimulation of the Clare-Bishop area. An insignificant number of caudate nucleus neurons were activated as a result of stimulation of both cortical areas. A comparison between the response of one set of neurons to electrical cortical and visual stimulation showed that cells responding to visual stimulation were more highly activated by stimulating the Clare-Bishop area than by stimulation of field 17. This type of neuron predominated in the caudate nucleus. A discussion follows of the possible involvement of the Clare-Bishop area in shaping neuronal response to visual stimulation.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 17, No. 5, pp. 619–627, September–October, 1985.     

Evidence for vasoactive intestinal polypeptide (VIP) altering the firing rate of preoptic,septal and midbrain central gray neurons

The effect of the iontophoretic application of vasoactive intestinal polypeptide (VIP) on the extracellular electrical activity (neuronal firing rate) of 91 neurons localized in the preoptic (PO), septal (S) region and midbrain central gray (MCG) was studied in urethane-anesthetized female rats. When applied in minute quantities, VIP induced both excitatory ($\text{N = 14}$) and inhibitory ($\text{N = 8}$) changes in the membrane excitability of PO and S neurons (total $\text{N = 58}$), while only inhibitory ($\text{N = 9}$) changes were observed in the MCG neurons (total $\text{N = 33}$; thus 24 MCG neurons were found to be unresponsive to VIP). The latency and duration of the VIP-induced response was, for the most part, characterized by a rapid onset and persisted for the duration of the ejecting pulse. However, five out of the 58 PO and S neurons and one out of the 33 MCG neurons did show responses that were longer and more variable in latency and duration. Of 26 PO neurons recorded and tested with VIP, only five neurons were determined to be antidromically identified (AI) as having their axons in the median eminence. The application of VIP increased the neuronal firing rate in two AI PO neurons, decreased the activity in one, and was ineffective in altering the activity in two other AI PO neurons. The VIP-induced changes in the neuronal firing rate appear to be specific and reproducible, and not related to the ejecting current nor pH of the solution. The results suggest that VIP, a gastrointestinal hormone that is also localized in the brain, can alter the neuronal firing rate of hypothalamic and midbrain neurons, thus providing additional evidence for its possible influence on brain and neuroendocrine function.     

电刺激蝙蝠小脑对下丘神经元听反应的影响

实验在34只长翼蝠(Miniopterus schrebersi)上进行.使用玻璃微电极在中脑下丘中央核记录听神经元电反应.电刺激点分别位于小脑蚓部、半球和绒球小结叶共观察了515个对超声刺激产生反应的下丘听神经元.当电刺激小脑时,有171个(占33.2%)神经元听反应受到影响.其中126个(占24.5%)表现为抑制,45个(8.7%)表现为易化.抑制效应表现为神经元所反应放电频数降低和反应潜伏期延长.易化效应则相反.抑制与易化潜伏期一般都在6毫秒以上.抑制效应与电刺激强度、声刺激强度以及声刺激和电刺激的时间间隔有关.抑制和易化性影响都是双侧性的.     

Changes in neuronal activity of the inferior colliculus in rat after temporal inactivation of the auditory cortex

The role of cortico-tectal pathways in auditory signal processing was studied in anesthetized rats by comparing the extracellular single unit activity in the inferior colliculus (IC) before and after functional ablation of the auditory cortex (AC) by tetrodotoxin (TTX). The responses of several IC neurons to sound stimuli were simultaneously recorded with a 16-channel electrode probe introduced into the IC. Click-evoked middle latency responses (MLR) recorded from the AC were suppressed for several hours after TTX injection. During AC inactivation the firing rate of IC neurons increased (40 % of neurons), decreased (44 %) or did not change (16 %) in comparison with control conditions. In several IC neurons, TTX injection resulted in alterations in the shape of the rate-level functions. Response thresholds, tuning properties and the type of discharge pattern of IC neurons were not altered during AC inactivation. However, in one-third of the neurons, the initial part of the response was less altered than the later, sustained part. In two-thirds of neuronal pairs, functional decortication resulted in a change in the cross-correlation coefficient. The results reveal the complex changes that appear in IC neuronal activity after functional ablation of the ipsilateral auditory cortex.     

Effect of electroacupuncture on the nature of changes in the activity of neurons in the 2d somatosensory region of the cerebral cortex

Effects of electroacupuncture (EAP) on the character of spontaneous and evoked neuronal impulse activity changes in the second somatosensory area (S2) of the brain cortex by nociceptive and non-nociceptive stimulation were studied in acute experiments on cats. It was demonstrated that EAP changed the character of S2 neurons activity and formed their new functional state. After EAP activity of non-nociceptive neurons were not changed, evoked activity of nociceptive neurons were inhibited. It is suggested, that EAP preferential blocking the protopathic components of the acute pain.     

Masking effect of different durations of forward masker sound on acoustical responses of mouse inferior collicular neurons to probe sound

To study the effects of different durations of forward masker sound on neuronal firing and rate-intensity function(RIF)of mouse inferior collicular(IC)neurons,a tone relative to 5 dB above the minimum threshold(re MT+5 dB)of the best frequency of recorded neurons was used as forward masker sound under free field stimulation condition.The masker durations used were 40,60,80,and 100 ms.Results showed that as masker duration was increased,inhibition in neuronal firing was enhanced(P＜0.0001,n=41)and the latency of neurons was lengthened(P＜0.01,n=41).In addition,among 41 inhibited IC neurons,90.2%(37/41)exhibited narrowed dynamic range(DR)when masker sound duration was increased(P＜0.0001),whereas the DR of 9.8%(4/41)became wider.These data suggest that masking effects of different durations of forward masker sound might be correlated with the amplitude and duration of inhibitory input to IC neurons elicited by the masker sound.     

Neuronal responses evoked in the bulbar respiratory center by stimulation of the anterior ventral and mediodorsal thalamic nuclei

The effects of rhythmical low- and high-frequency stimulation of specific nonsensory anterior ventral and associative mediodorsal thalamic nuclei (AV and MD, respectively) on the activity of neuronal units in the medullary ventral respiratory nucleus were studied in acute experiments on anesthetized, spontaneously breathing cats. Both inhibitory and excitatory influences on spike activity of inspiratory and expiratory neurons were found, with suppression effects being markedly predominant. Thresholds for inspiratory neuronal responses were lower as compared with those for expiratory cells. Electrical AV stimulation mainly produced an inhibitory effect on the activity of nonspecific reticular neurons (without respiratory activity), whereas during MD stimulation activating effects on these neurons dominated. Possible mechanisms underlying the realization of thalamorespiratory influences are discussed.Neirofiziologiya/Neurophysiology, Vol. 25, No. 3, pp. 218–223, May–June, 1993.     

褪黑色素对缰核痛神经元单位放电的影响及可能机制

目的通过观察褪黑色素对缰核痛神经元单位放电的影响,进一步证明褪黑色素的中枢镇痛作用及可能机制。方法：应用细胞外神经元单位放电记录方法,记录缰核神经元痛相关神经元放电,并观察外侧缰核痛神经元在褪黑色素作用下电活动的改变,及对伤害性刺激痛敏感性的改变,在此基础上观察纳洛酮的翻转作用。结果：褪黑色素影响外侧缰核痛神经元的电活动,并使外侧缰核痛神经元对伤害性刺激敏感性降低,此种作用可被纳洛酮翻转。结论：褪黑色素可通过作用于外侧缰核的阿片受体而影响其痛相关神经元对痛刺激的反应,这可能是褪黑色素中枢镇痛机制之一。     

D-2 receptor-mediated inhibition by a substituted quinolinone derivative, 7-[3-(4-(2,3-dimethylphenyl)piperazinyl)propoxy]-2(1H)-quinolinone (OPC-4392), of dopaminergic neurons in the ventral tegmental area

A microiontophoretic study was performed to investigate the effects of a newly synthesized quinolinone derivative, 7-[3-(4-(2,3-dimethylphenyl) piperazinyl) propoxy] 2-(1H)-quinolinone (OPC-4392), on neuronal activities of the ventral tegmental area (VTA) of rats anesthetized with chloral hydrate. The VTA neurons, which were identified by antidromic stimulation of the nucleus accumbens (Acc), were classified into type I and type II neurons according to the responses to Acc stimulation: type I neurons had a long spike latency of over 7 msec (9.63 +/- 0.25 msec), and the type II, a short latency of less than 7 msec (2.98 +/- 0.27 msec) upon Acc stimulation. In all of 11 type I neurons, iontophoretically applied OPC-4392 and dopamine inhibited the antidromic spikes elicited by Acc stimulation. This inhibition was antagonized by simultaneous application of domperidone (dopamine D-2 antagonist). However, in 16 out of 19 type II neurons the antidromic spikes were not affected by either OPC-4392 or dopamine. When the effects of iontophoretically applied OPC-4392 and dopamine on spontaneous firings were tested in 32 VTA neurons identified by Acc stimulation (including type I and type II neurons), there was a relationship between the effects of these two drugs. These results suggest that OPC-4392 acts on dopamine D-2 receptors of the dopaminergic neurons in the VTA, thereby inhibiting neuronal activity.     

刺激中缝背核对大鼠脊髓背角神经元伤害性反应的影响及其传出途径的分析

大量资料表明,中缝背核(DR)在痛觉调节中具有重要作用。本实验用电生理学方法研究DR在痛觉调制中的下行性抑制作用,主要观察刺激DR对清醒制动大鼠脊髓背角神经元伤害性放电的影响。其主要结果是:①刺激DR或电针可以抑制脊髓背角神经元的伤害性反应,吗啡可加强这种抑制效应;②损毁中缝大核(NRM)、纳洛酮、麦角酰二乙胺(LSD)、赛庚啶及对氯苯丙氨酸(PCPA)均能部分阻断DR对脊髓背角神经元伤害性反应的抑制,实验结果表明:刺激DR抑制脊髓背角神经元的伤害性反应,部分是通过NRM间接控制背角神经元的伤害性传入;还有一部分是不通过NRM,可能是DR直接对脊髓背角伤害性信息的调制。在这种下行性抑制通路中有5-HT和阿片样物质的参与。     

Effects of alterations in the activity of tuberohypophysial dopaminergic neurons on the secretion of alpha-melanocyte stimulating hormone

Administration of gamma-butyrolactone (GBL), an anesthetic which reduces dopaminergic neuronal activity, decreased the concentration of the dopamine (DA) metabolite 3,4-dihydroxyphenylacetic acid (DOPAC) in the intermediate lobe of the pituitary gland, and increased alpha-melanocyte stimulating hormone (alpha MSH) concentrations in the serum of male rats. Bilateral electrical stimulation of the rostral arcuate nucleus, which contains perikarya of tuberohypophysial DA neurons, increased DOPAC concentrations in the intermediate lobe and decreased alpha MSH concentrations in the serum of GBL-anesthetized rats. Administration of the DA antagonist haloperidol prevented the decline in serum alpha MSH levels following arcuate nucleus stimulation, but had no effect on serum alpha MSH concentrations in sham-stimulated GBL-treated rats. These results indicate that GBL-induced decreases or stimulation-induced increases in the activity of tuberohypophysial DA neurons are accompanied by corresponding changes in the metabolism of DA in the intermediate lobe of the rat pituitary gland, and by reciprocal changes in the secretion of alpha MSH.     

Neuroglia in the inferior olivary nucleus during normal aging and Alzheimer's disease

It is likely that neuronal loss occurs in certain brain regions in Alzheimer's Disease (AD) without any neurofibrillary pathology. In the human principle inferior olivary nucleus (PO), we have shown that neuronal loss is about 34% (Lasn et al. Journal of Alzheimer Disease, 2001; 3: 159-168), but the fate of the neuroglial cells is unknown. Since the unique network of neurons and neuroglial cells and their cohabitation are essential for normal functioning of CNS, we designed a study to estimate the total number of oligodendrocytes and astrocytes in normally aged and AD brains. The study is based on 10 control and 11 AD post-mortem human brains. An unbiased stereological fractionator method was used. We found significant oligodendroglial cell loss (46%) in AD as compared to control brains, while the total number of astrocytes showed a tendency to decrease. It is likely that the ratio of oligodendroglial cells to neurons remains unchanged even in degenerative states, indicating that oligodendroglial cells parallel neuronal loss. Astroglial cells did not increase in total number, but the ratio to neurons was significantly increased due to the neuronal loss. Using a novel unbiased quantitative method, we were able to describe significant oligodendroglial loss in the PO but the pathogenic mechanism behind remains unknown.     

Neuronal mechanisms of motor signal transmission in the thalamic ventrooral nucleus in spasmodic torticollis patients

A microelectrode technique was used to study the neuronal mechanisms of motor signal transmission in the ventrooral internus nucleus (Voi) of the motor thalamus during voluntary and involuntary pathological (dystonic) movements in patients with spasmodic torticollis. Voi cell elements proved highly reactive to various functional (mostly motor) tests. An activity analysis of 55 Voi neurons detected during nine stereotactic operations revealed, first, a difference in neuronal mechanisms of motor signal transmission for voluntary movements that do or do not involve the affected axial muscles of the neck and for passive and abnormal involuntary dystonic movements. Second, a sensory component was found to play a key role in the mechanisms of sensorimotor interactions during voluntary and involuntary dystonic head and neck movements activating the axial muscles of the neck. Third, rhythmic and synchronized activity of Voi neurons was shown to play an important role in motor signal transmission during voluntary and passive movements. The Voi nucleus was directly implicated in the mechanisms of involuntary head movements and tension of the neck muscles in spasmodic torticollis. The results can be used to identify the Voi nucleus of the thalamus during stereotactic neurosurgery in order to select the optimal destruction or stimulation target and to reduce the postoperative effects in spasmodic torticollis patients.     

Immunohistochemical study on the distribution of neuronal nitric oxide synthase-immunoreactive neurons in the spinal cord of aged rat

Summary Despite in vivo studies suggesting an important function for nitric oxide (NO) in the spinal cord in the transmission of pain signals, sympathetic nerve activity and presumably other spinal functions, changes of neuronal NO synthase (nNOS)-containing neurons with aging in the spinal cord has not been investigated. In the present study, we demonstrated for the first time that the number of nNOS-immunoreactive neurons was significantly decreased in the central autonomic nucleus and the superficial dorsal horn of spinal cord in aged rats. Morphologically, the number and length of dendritic branches also seemed to be decreased. Combined with our previous studies, age-related decreases in the number of nNOS-immunoreactive neurons in the central autonomic nucleus and the superficial dorsal horn might be associated with the abnormality of micturition function or pain perception encountered in the elderly. However, the mechanisms underlying the decreased immunoreactivity for nNOS, and the functional implications require elucidation.