Differential blood pressure and heart rate responses to supramedullary brain stimulation in cats

The purpose of this study was to compare the cardiovascular responses to electrical stimulation of different supramedullary brain regions. Arterial blood pressure (BP) and heart rate (HR) effects were elicited by electrical stimulation of the lateral hypothalamus (LH), mamillary bodies (Mm), substantia nigra (SN), globus pallidus (GP), and the subthalamic nucleus (Sub) in conscious, freely moving cats. Pressor responses were obtained from all of these regions. The higher intensity of stimulation the higher increase in BP and HR was obtained. However, clear-cut differences occurred in the effects both during and after the termination of stimulations. Namely, a continuous increase in BP and HR was obtained from the LH and SN. In contrast, the initial increase in BP and HR was followed by a reduction compared to the peak value of the effects of stimulation in the GP and the Sub. However, the BP and HR never reduced to the pre-stimulaion level during the stimulation. Also the changes following the cessation of stimulation at the different brain loci were dissimilar. The BP and HR either returned gradually to the pre-stimulation level, or long-lasting oscillation occurred. The electrical activity of the nucleus of the solitary tract (NTS) and the vagus nerve co-varied with the changes in BP and HR. It is concluded that the supramedullary stimulations produce differential cardiovascular effects, and these effects are modified by the baroreflexes that are activated by the electrically elicited rise in blood pressure.     

Feeding following microinjection of cholinergic substances into substantia nigra.

Microinjections of acetylcholine and eserine localised within the substantia nigra of the rat elicited a dose-dependent increase in feeding, but not drinking when both food and water were freely available. When required to perform an operant response for food, microinjections of carbachol into substantia nigra caused a dose-dependant increase in lever pressing for food (FR5). High doses of carbachol (1.0 and 5.0 μ1) elicited a behavioural stereotypy characterised by chewing, gnawing and biting. A significant negative correlation was found between the effectiveness of cholinergic stimulation and the distance from the site of highest feeding which was in the pars compacta region of substantia nigra. These data suggest a functional role for acetylcholine within substantia nigra and provide indirect support for the concept of an interaction between cholinergic and dopaminergic neurons within this structure.     

Stereotyped behaviour after cholinergic, but not dopaminergic, stimulation of the substantia nigra in rats

Stereotyped behaviour of the rat was measured after intracerebral drug application in an objective and quantitative way by means of a new method developed in this laboratory. Bilateral intranigral injection of apomorphine /APO/, a specific dopaminergic agonist, did not evoke any signs of stereotyped behaviour. Also ineffective was the application of APO in the amygdaloid nucleus. Dopaminergic blockade of the substantia nigra by topical application of triperidol, a potent dopaminergic antagonist, failed to influence the stereotypy elicited by systematic APO administrationDirect cholinergic stimulation of the substantia nigra with carbachol resulted in a dose-related stereotyped behaviour not distinguishable by sight from that evoked by systematic APO administration. The effect of intranigral carbachol was antagonized by a previous intraperitoneal injection of 10 mg/kg of atropine. Stereotypy could easily be produced also by intracaudate application of APO. Topical triperidol blockade of the caudate nucleaus prevented the stereotypy caused by intraperitoneal application of APO.It is concluded that at least a part of nigral neurons cannot be directly excited by apomorphine. However, they can be excited by carbacol and seem thus, to contain muscarinic receptors. The stimulation of these receptors results in an excitation of the neurons involved and produces marked stereotyped behaviour.     

Respiratory and circulatory effects of parietal pleural afferent stimulation in rabbits.

Respiratory symptoms accompanying pleural diseases combine dyspnea, tachypnea, rapid shallow breathing, and sometimes hypotension. There are no experimental data on the changes in respiratory and circulatory functions elicited by the activation of pleural afferents. After removal of all muscles covering the 5th to 10th intercostal spaces, we investigated in paralyzed, vagotomized rabbits the changes in phrenic discharge, transpulmonary pressure, and systemic arterial pressure in response to an outwardly directed force exerted on the parietal pleura or the local application of solutions containing lactic acid or inflammatory mediators. Mechanical stimulation of the pleura induced an immediate decrease in both integrated phrenic discharge and arterial blood pressure, the responses being positively correlated with the magnitude of force applied on the pleura. No accompanying changes in ventilatory timing, transpulmonary pressure, or heart rate were measured. Lactic acid solution also elicited an inhibition of phrenic activity and a fall in blood pressure. Section of the internal intercostal nerves supplying the stimulated intercostal spaces totally abolished the responses to mechanical stimulation or lactic acid. An inflammatory mixture elicited only modest respiratory and circulatory effects. We concluded that an acute mechanical distension of the parietal pleura as well as its chemical stimulation by lactic acid elicit a marked inhibition of phrenic motoneurons combined to a reduction of the sympathetic outflow to the circulatory system.     

Effect of diazepam, meprobamate and amizyl on the emotional reactions of the rabbit to hypothalamic stimulation

The influence of minor tranquilizers (diazepam, meprobamate and beuactizine) on the hypothalamically elicited emotional responses was studied in chronic experiments on rabbits. The positive self-stimulation elicited from the lateral hypothalamus was facilitated by all used tranquilizers. On the first day of administration of the drugs the rate of self-stimulation increased markedly. The rate of self-stimulation was still mildly enhanced on the second day and returned to its initial value on the third day. The avoidance behaviour elicited from the medial hypothalamus changed to obvious self-stimulation after the administration of diazepam and meprobamate. The reversed behaviour preserved on the second day, while on the third day the animals resumed their avoidance behaviour. It was depressed by benactizine injection and some activation of exploratory behaviour was observed.     

Excitation by dopamine D-2 receptor agonists, bromocriptine and LY 171555, in caudate nucleus neurons activated by nigral stimulation

Electrophysiological studies using cats anesthetized with alpha-chloralose were carried out to determine whether or not the dopamine D-2 receptor mediates the excitation of the caudate nucleus (CN) neurons activated by stimulation of the substantia nigra (SN). Microiontophoretic application of domperidone (D-2 antagonist) produced a significant inhibition of spikes elicited by SN stimulation in 20 of 27 CN neurons. When bromocriptine and LY 171555 (D-2 agonists) were iontophoretically applied to the CN neurons in which the SN-induced spikes were inhibited by domperidone, an increase in spontaneous firing rate was observed in 18 of 20 neurons and all of 10 neurons tested, respectively. However, no alterations of firing occurred with bromocriptine or LY 171555 in any 7 neurons in which the SN-induced spikes were not affected by domperidone. The increase in firing rate by the D-2 agonists was apparently antagonized during simultaneous application of domperidone and haloperidol, but not affected during application of SCH 23390 (D-1 antagonist). These results strongly suggest that the spike generation of the CN neurons upon SN stimulation is mediated by the dopamine D-2 receptor.     

Arterial blood pressure and heart rate changes during self-stimulation by dogs in the basal forebrain region, lateral preoptic area, hypothalamus, ventral midbrain and amygdala.

In dogs pressing a lever for a brain-stimulation reward, arterial blood pressure (ABP) was elevated for 20 out of 24 sites tested, but this effect was usually conspicuous only at twice the threshold current sustaining stable performance. Hypertension was seen only in one ventral tegmental and two hypothalamic sites. In three anterior placements the ABP and heart rate (HR) increased more upon a fixed ratio than on continuous reinforcement. In most sites, self-stimulation was accompanied by cardiac acceleration; however, in some placements the HR was similar to or even less than control values. Continuous stimulation (5-10 sec) at one nucleus accumbens and four hypothalamic sites by the experimenter was aversive and produced a clearcut pressor response. The cardiovascular changes seem to depend on a spread of current to brain centres controlling circulatory functions and also, to some extent, on the animal's motor activity. The results contradict the claim that a causal relationship exists between the autonomic concomitants of self-stimulation and the intrinsic nature of the brain-stimulation reward.     

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.     

Psychopharmacological analysis of hypothalamically-induced emotions

The effect of minor tranquilizers and neuroleptics was compared on self-stimulation and escape behaviourelicited by electrical stimulation of the hypothalamic nuclei in rabbits. It was shown that while tranquilizers (diazepam, oxazepam and meprobamate) increased the rate of self-stimulation elicited from the lateral hypothalamus, neuroleptics considerably suppressed such behaviour. Tranquilizers caused a remarkable reversal of the escape behaviour into a high-rate self-stimulation, both responses being induced from the same electrodes within the medial hypothalamus. Neuroleptics (chlorpromazine, reserpine and haloperidol) had not such an influence, though they somewhat increased the general activity of the animals. The reversing effect of the tranquilizers was compared with similar findings obtained after electrolytic ablation of the ventral hippocampus. It is suggested that the hippocampus has an inhibitory influence on the hypothalamic motivational system thus providing substantially for the animals' survival in a hostile environment.     

Changes in Levels of Dopamine and Tyramine in the Rat Caudate Nucleus Following Alterations of Impulse Flow in the Nigrostriatal Pathway

Following electric stimulation of the substantia nigra for 1 h there was a substantial increase in dopamine (DA) turnover in the rat caudate nucleus evidenced by an increase in its acid metabolite homovanillic acid (HVA). Concurrently there was an increase in striatal m-tyramine (mTA) and a substantial decrease in p-tyramine (pTA). Lesioning the substantia nigra to decrease impulse flow resulted in a buildup of striatal DA and mTA, but again a decrease in pTA. Following pretreatment with a tyrosine hydroxylase inhibitor, the effects of stimulation of the nigra on mTA were reversed, there being a significant decrease in this amine. The decrease of pTA in response was partially prevented by tyrosine hydroxylase inhibition. The effects of stimulation or substantia nigra lesions on pTA levels were reversed, however, by tyrosine hydroxylase inhibition, a significant increase in this amine being recorded. mTA and DA levels were largely unaffected by a combination of lesion and tyrosine hydroxylase inhibition. The results provide insight into the possible biosynthetic interrelationships between DA and the tyramine isomers in the rat caudate nucleus.     

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。     

The role of the substantia nigra in the control of amygdaloid paroxysmal activity

Both in acute and chronic cats focal paroxysmal activity evoked in the ventro-basal complex of the amygdala has been inhibited by substantia nigra conditioning stimulation, to a greater extent, than by caudate nucleus activation. Injection of kainic acid into substantia nigra resulted in the disappearance of the caudate inhibition. It is suggested that the final control, exerted by the striatum on the amygdaloid seizures, occurs by means of the substantia nigra.     

Electrical Stimulation of the Substantia Nigra and Changes of 2-Phenylethylamine Synthesis in the Rat Striatum

In rats pretreated with deprenyl (2 mg/kg), electrical stimulation of the left substantia nigra produced an increase in the concentrations of 3,4-dihydroxyphenylacetic acid and homovanillic acid in the left striatum by 57 and 45%, but the levels of 2-phenylethylamine and p-tyramine decreased by 22 and 41%, respectively, as compared with those in the right striatum. The administration of alpha-methyl-p-tyrosine (1.25 mg/kg, i.p.), a tyrosine hydroxylase inhibitor, 1 h before nigral stimulation, did not affect the concentration of 2-phenylethylamine in unstimulated striata but prevented the stimulation-induced decrease in the concentration of 2-phenylethylamine. Neither stimulation nor alpha-methyl-p-tyrosine affected the activity of monoamine oxidase A or B, and stimulation did not produce any change in striatal blood flow, a finding demonstrating that the changes in the rate of accumulation of 2-phenylethylamine were not due to changes in catabolism or removal of 2-phenylethylamine from the brain. These experiments demonstrate that the rate of synthesis of striatal 2-phenylethylamine is decreased following nigral stimulation and that this effect is blocked after partial inhibition of tyrosine hydroxylase. This suggests that 2-phenylethylamine is present in tyrosine hydroxylase-containing neurons and therefore supports the coexistence of 2-phenylethylamine and dopamine in the nigrostriatal pathway.     

Behavioural and cardiovascular responses to electrical stimulation of the medulla oblongata of the cat

Effects of stimulation of the nucleus tractus solitarii, the dorsal motor nucleus of the vagus, the nucleus reticularis paramedianus, and the nucleus cuneatus were studied in free-moving cats. Stimulation of the medullary nuclei that are known to be involved in the central nervous control of cardiovascular functions might activate preprogrammed motor responses such as licking and sniffing, and induce complex behavioural response patterns such as sleep or flight reaction. Moreover, both lever-pressing for rewarding brain stimulation, and eating in food deprived cats might be modulated by these stimulations. In a shuttle box the cats showed no tendency toward shuttling during stimulation, except the stimulation of the nucleus reticularis paramedianus which produced aversion. The cardiovascular and respiratory effects varied parallel with the behavioural responses. It is concluded that the medullary nuclei related to visceral functions are capable of affecting somatomotor behaviour either directly on the motor system, or by inducing complex response patterns in which somatomotor and visceral responses are integrated.     

帕金森病大鼠STN-DBS刺激8天后黑质内胶质细胞的形态学变化

目的：观察丘脑底核脑深部电刺激（STN—DBS）慢性刺激后黑质内胶质细胞和多巴胺能细胞的变化。方法：取50只健康Wistar雄性大鼠随机分为假造模组（n=10）和6-羟基多巴胺（6-OHDA）组（11=40）。立体定向单侧造模成功后将6-OHDA组随机分为假手术组（n=10）,假刺激组（n=15）,刺激组（n=15）。刺激组和假刺激组植入STN—DBS,假手术组进行手术但不植入电极。刺激组术后第8d开始每日在固定时间给予连续脉冲刺激,持续时间30mins,连续8d。假刺激组刺激方法同上但关闭电源。在STN—DBS刺激前、刺激时和刺激后观察2mins内大鼠阿扑吗啡旋转次数。刺激结束后将大鼠断头取脑固定,取左侧黑质脱水、透明、浸蜡、包埋、切片,染色。电镜下观察细胞形态并进行细胞计数。结果：帕金森大鼠植入STN—DBS刺激后症状显著改善。慢性刺激8天后刺激组黑质内的星形胶质细胞和多巴胺能细胞均较假刺激组和假手术组明显增加并有统计学意义,而刺激组的小胶质细胞较假刺激组和假手术组有所减少但无统计学意义。结论：STN-DBS慢性刺激可以促使黑质内星形胶质细胞增多,小胶质细胞减少,对黑质内爹巴胺能细胞有一定的保护作用。     

Biphasic and Opposite Effects of Dopamine and Apomorphine on Endogenous GABA Release in the Rat Substantia Nigra

Abstract: A push-pull cannula technique was used to study the in vivo release of endogenous GABA in the rat substantia nigra. Intranigral application of both dopamine (DA) and apomorphine produced biphasic changes in the rate of endogenous GABA release. The presence of 10 μM-DA in the perfusion medium increased GABA release (140%). At 25 μM-DA, both stimulation and inhibition of the nigral GABA release were observed. Higher concentrations of DA produced a decrease of the GABA release (50%). A small amount of apomorphine (10 μM in the perfusion medium) resulted in a decrease in GABA release (75%). Application of 25 μM-apomorphine produces opposite effects, similar to those observed after addition of 25 μM-DA. We observed an enhanced GABA release from the substantia nigra at 100 μM-apomorphine in the perfusion medium (360%). The presence of 5 μM-haloperidol produced a small decrease in the rate of GABA release (80%). Both the inhibitory effect of 25 μM-DA and the excitatory effect of 100 μM-apomorphine could be blocked by haloperidol added to the perfusion medium. Dibutyryl cyclic AMP (1.5 mM) and 2-amino-6, 7-dihydroxyl(1, 2, 3, 4) tetrahydronapthalene (ADTN) (50 μM) added to the perfusion medium produced an inhibition of nigral GABA release (55% and 35% respectively) similar to that observed after addition of 50 μM-DA. The amounts of lysine and ethanolamine (measured with GABA concurrently) released into the perfusion medium did not change in most of the experiments. The changes in the rates of release of these compounds that were observed in some experiments were either in the same or in the opposite direction of the change in GABA release. These results suggest that dopaminergic processes within the substantia nigra affect GABA-ergic neurotransmission and that DA and apomorphine have different effects on GABA release.     

Motivation dependence of brain self-stimulation in the pigeon

Several brain sites in the pigeon were identified as maintaining electrical brain self-stimulation. Depending on the site, stimulus currents yielding maximal responding varied from 20 to 160 μA. A high proportion of the sites only yielded self-stimulation behaviour if the subjects were deprived of food; when the birds were at full weight there was only one site at which the stimulation continued to be rewarding. Some, but weak, evidence of stimulus satiation was found. Overt behaviour elicited by non-contingent stimulation did not correlate with the reinforcing or neutral nature of the sites tested. While some positive sites were associated with structures known to be involved in the control of feeding, others were not. The hypothesis that stimulation at the hunger-dependent sites might have elicited temporary satiation signals is considered.     

Differential regulation of somatodendritic and nerve terminal dopamine release by serotonergic innervation of substantia nigra

Nigrostriatal dopaminergic neurons release dopamine from dendrites in substantia nigra and axon terminals in striatum. The cellular mechanisms for somatodendritic and axonal dopamine release are similar, but somatodendritic and nerve terminal dopamine release may not always occur in parallel. The current studies used in vivo microdialysis to simultaneously measure changes in dendritic and nerve terminal dopamine efflux in substantia nigra and ipsilateral striatum respectively, following intranigral application of various drugs by reverse dialysis through the nigral probe. The serotonin releasers (+/-)-fenfluramine (100 micro m) and (+)-fenfluramine (100 micro m) significantly increased dendritic dopamine efflux without affecting extracellular dopamine in striatum. The non-selective serotonin receptor agonist 1-(m-chlorophenyl)-piperazine (100 micro m) elicited a similar pattern of dopamine release in substantia nigra and striatum. NMDA (33 micro m) produced an increase in nigral dopamine of a similar magnitude to mCPP or either fenfluramine drug. However, NMDA also induced a concurrent increase in striatal dopamine. The D2 agonist quinpirole (100 micro m) had a parallel inhibitory effect on dopamine release from dendritic and terminal sites as well. Taken together, these data suggest that serotonergic afferents to substantia nigra may evoke dendritic dopamine release through a mechanism that is uncoupled from the impulse-dependent control of nerve terminal dopamine release.     

Effect of beta-phenylethylamine on evoked potentials of the neostriatum of rats]

The effect of intraperitoneal (70 mg/kg) and local (39 ug) administration of beta-phenylethylamine (beta-PEA) on evoked potentials (EP) in the caudate nucleus upon stimulation of substantia nigra zona compacta (SNC) and frontal cortex in rats has been studied. beta-PEA, glutamate and haloperidol were injected into the caudate nucleus by means of a system consisting of a pushpull cannule and an electrode for simultaneous registration of EP. Specificity in the effect of the drugs on EP in response to stimulation of the cortex and substantia nigra was revealed. The intraperitoneal injection of beta-PEA induced, comparatively to the application, more rapid and potent decrease in the amplitude of the component (N2-P2) as a result of the substantia nigra stimulation and slightly influenced the EP amplitude in stimulation of the frontal cortex. It was established using haloperidol that the component (N2-P2) of EP in response to the substantia nigra stimulation is of dopaminergic neuron function in the nigro-neostrital system of the rat brain.     

IN VIVO RELEASE OF ENDOGENOUS GABA FROM RAT SUBSTANTIA NIGRA MEASURED BY A NOVEL METHOD

A sensitive GABA assay using HPLC coupled with fluorimetric detection with o-phthalaldehyde is described. GABA, lysine and ethanolamine can be measured within approx 12 min. The detection limits for these compounds (signal/noise = 3) is 0.67 pmol, 1.8 pmol and 0.73 pmol respectively. Using this assay the in vivo release of GABA from rat substantia nigra was studied with a push-pull perfusion technique. A pronounced increase in the rate of endogenous GABA release was observed after addition of depolarizing amounts of K⁺ to the perfusion medium, whereas the concentrations of lysine and ethanolamine in the perfusate did not change. This enhanced release of GABA was not diminished after omission of Ca²⁺ and Mg²⁺ from the medium. Increasing the Mg²⁺ concentration and leaving out Ca²⁺ however, resulted in a marked depression in the K⁺-induced GABA release. Electrical stimulation of the striatum also produced an increase in release of GABA from the substantia nigra. Inhibition of glutamic acid decarboxylase (with 3-mercaptopropionic acid) caused an immediate decrease in GABA release. Inhibition of GABA transminase (with aminooxyacetic acid) leads to an increased release of GABA after approx 15 min. These findings suggest that the technique is suitable for measuring neuronal release of endogenous GABA in vivo