Analysis of the effect of increasing electrodermal stimulation on the somatovegetative reactions evoked by stimulation of the ventromedial hypothalamus

The influence of increasing electrodermal stimulation (EDS) on the dynamics of the somatovegetative reactions evoked by electrical stimulation of negative emotiogenic regions of the hypothalamus was studied. EDS produced a blocking effect on the somatovegetative reactions evoked by stimulation of the ventromedial hypothalamus (VMH). Pretreatment with naloxone prevented the effects of EDS. Injection of beta-endorphine in a dose of 10 micrograms to the lateral ventricules of the animal brain also blocked the somatovegetative reactions during VMH stimulation. Injection of beta-endorphine in doses of 50-100 micrograms enhanced and prolonged the somatovegetative reactions evoked by VMH stimulation. Elevated arterial blood pressure, pronounced bradycardia, extrasystoles, muscle tremor, and pathologic respiration were recorded. These disorders were completely reversed by EDS. It is assumed that both opiate peptides and their receptors are involved in the mechanism of the somatovegetative reactions evoked by VMH stimulation, experiencing the influence of EDS.     

Effect of morphine on the concentration of monoamines in the emotiogenic zones of the hypothalamus in adult and old rats

The content of monoamines in the emotiogenic hypothalamic zones has been shown to noticeably change with aging of rats. The level of noradrenaline and serotonin increased in the ventromedial nucleus of the hypothalamus, while the concentration of noradrenaline increased in the lateral hypothalamic zone. Single i.p. injections of 10 mg/kg morphine evoked qualitatively different shifts in the monoamine concentrations in the hypothalamic emotiogenic zones of the rats of different ages: the level of dopamine increased in adult animals, while the levels of noradrenaline and serotonin dropped in old rats. It is supposed that in old age the effect of morphine on dopaminergic structures in the emotiogenic hypothalamic zones becomes more moderate, whereas that on the noradrenergic and serotonergic structures is facilitated. The age-related specificities of the morphine effect on the monoaminergic regulation of the emotiogenic hypothalamic zones can determine considerable modifications of a psychotropic effect of the drug in old age.     

Adrenomedullary pressor responses to stimulation of the rostral hypothalamus in the rat: influence of adrenaline-induced vasodilation and reflex cardioinhibition

Electrical stimulation (100 Hz, 1 ms, 150 microA, 10 s) of the anterior hypothalamus in chloralose-anesthetized rats evoked a biphasic pressor response consisting of an initial sharp rise in arterial pressure at the onset of stimulation, followed by a second elevation after cessation of the stimulus. This response was accompanied by an increase in plasma noradrenaline and adrenaline levels. Peripheral sympathectomy with guanethidine selectively abolished the primary phase of the biphasic pressor response, while bilateral removal of the adrenal medulla eliminated only the secondary component. After alpha-adrenergic blockade with phentolamine, the primary phase of the stimulation-induced response was reduced while the secondary pressor component was blocked and replaced by a significant hypotension. The intravenous administration of sotalol enhanced the secondary pressor component without affecting the stimulation-induced plasma noradrenaline and adrenaline responses. After treatment with atropine, the secondary pressor effect was also potentiated, as the reflex bradycardia normally associated with the response was eliminated. A subsequent administration of sotalol in these rats further potentiated the secondary pressor component to stimulation. In rats treated with atropine and sotalol, the sympathetic vasomotor and the adrenomedullary pressor responses could be dissociated according to thresholds and stimulus frequency or current-response characteristics. The results suggest that in intact rats, adrenaline-induced vasodilation and reflex cardiac inhibition contribute to either reduce or mask the adrenomedullary component of the biphasic pressor response evoked by stimulation of the anterior hypothalamus. The study also raises the hypothesis of a dual regulation of both components of the sympathetic system in the anterior hypothalamic region.     

Delta-sleep-inducing peptide (DSIP) as a factor facilitating animals' resistance to acute emotional stress

Delta-sleep-inducing peptide (DSIP) effects on resistance to acute emotional stress induced by electric stimulation of the ventromedial hypothalamus and skin of immobilized rats have been investigated. On the basis of the pattern of cardiovascular reactions, three groups of rats were distinguished: resistant, adapted, and predisposed to the experimental emotional stress. It is shown that DSIP injections increase animals' resistance to acute emotional stress. DSIP also changes the vascular reactivity to episodic emotiogenic stimulations. It is revealed that, after DSIP application, the absence of vascular reactions to emotiogenic ventromedial hypothalamic and electro-skin stimulations significantly increased.     

Local blood flow in the emotiogenic structures of the brain in freely moving rats

The speed of local blood flow (SLBF) in positive emotiogenic hypothalamic zones was recorded in free-moving white rats, by the method of hydrogen clearance, in states of passive and active alertness, in conditions of artificial (local) activation (by cathode) and inactivation (by DC anode) and also during stimulation of other positive and negative emotiogenic structures. It was established that the natural or artificial activation of the emotiogenic brain zones elicits an increase of SLBF and the inactivation evokes its reduction. Blood flow of the positive emotiogenic brain zones is intensified by stimulation of other positive emotiogenic structures, is reduced by stimulation of the negative emotiogenic zones and does not change at stimulation of emotionally neutral zones. It is suggested, that the mechanism of vascular reactions elicited by activation of positive and negative emotiogenic brain structures has a neurogenic basis and is performed in the type of "axon-reflex" by collaterals of ascending and descending fibers of the forebrain medial bundle.     

Maintaining hypertension in negative emotional exposures as one of the functions of the baroreceptor reflex

Changes in the heart rate and blood pressure induced by different emotiogenic influences were studied in rats with intact and denervated baroreceptor afferents of the carotid sinuses and aortic arch. Aversive emotiogenic stimuli failed to induce hypertension in rats with denervated baroreceptor areas, while self-stimulation in these rats caused a profound rise in arterial pressure. It is concluded that maintenance of hypertension induced by aversive emotiogenic influences is a manifestation of baroreceptor reflex.     

Normalization of the stress-induced cardiac rhythm disturbances by activation of the positive emotiogenic area of the lateral hypothalamus in the rabbit

Results of experiments indicated, that activation of the positive emotiogenic areas of the lateral hypothalamus abolished what may be considered emotionally induced cardiovascular disturbances. The by immobilization and hypothalamic defence area stimulation provoked increase of blood pressure and heart rate returned to control values, the giant T waves of ECG and dysrhythmias if present disappeared. The morphological abnormalities in the subcellular structures of the myocardium due to prolonged stress stimulation, could not be annulled by the evoked positive emotions. On the other hand the activation of the positive emotiogenic area of the hypothalamus preceded and overlapped with that of the defence area and immobilization, it prevented the functional as well as morphological cardiovascular changes.     

Changes in blood level of catecholamines during arterial blood pressure rise induced with sciatic nerve stimulation

In experiments on rabbits and dogs it was demonstrated that electrical stimulation of the centripetal fibres of the cut sciatic nerve causing a rise of the arterial blood pressure produced a significant increase in the plasma levels of adrenaline and noradrenaline. This effect was not observed in animals with sympathetic system blockade caused by administration of reserpine. These observations indicate that pressure increase after sciatic nerve stimulation is due to stimulation of the adrenergic system.     

Met-enkephalin restores self-stimulation behavior in rabbits after destruction of the hypothalamic nuclei]

Contralateral lesions of ventromedial and lateral hypothalamic nuclei inhibited hypothalamic self-stimulation in rabbits. Intracerebroventricular injection of metenkephalin evoked the restoration of self-stimulation behavior.     

Gastrin in the mechanisms of genetic determination of feeding behavior in rabbits

Spreading of a dominant motivation to the molecular intracellular mechanisms of genetic memory was studied. Blockage of protein synthesis in the nervous system selectively abolishes food motivation in rabbits during stimulation of the lateral hypothalamus but exerts no noticeable effect on avoidance responses during stimulation of the ventromedial hypothalamus. During protein synthesis blockage, food motivation returns to normal upon pentagastrin intracerebroventricular (i.c.v.) injection. Intracerebroventricular administration of antigastrin immunoglobulin inhibits feeding reaction to lateral hypothalamic stimulation but not avoidance response to ventromedial hypothalamic stimulation. It was concluded that feeding motivation translates into feeding behavior in the following stages: motivational excitation, gene activation, mRNA synthesis, formation of a gastrin-like peptide, and expression of feeding behavior.     

刺激兔下丘脑室旁核诱发的心律失常与增压反应

在60只局麻与肌松剂制动的家兔,观察到用0.1—0.4mA,50Hz,1ms 的方波电刺激下丘脑室旁核(PV)能诱发频发性心律失常(包括室性与室上性期前收缩)及显著的动脉血压升高。与同侧的下丘脑外侧区(LHA)及腹内侧核(VMH)相比,刺激PV诱发期前收缩的次数更为频繁,增压反应幅度较大,且所需阈值亦较低。较低强度刺激LHA 在部分兔能引起血压下降与心率减慢,而PV 则一致地诱发增压反应。电刺激腓深神经能抑制刺激PV诱发的期前收缩,但在中脑中央灰质微量注射吗啡或电解毁损只能完全阻断刺激VMH诱发的期前收缩,而不能完全阻断PV诱发的期前收缩。这些结果提示,PV是下丘脑中诱发心律失常与血压增高的高反应区之一,并且可能具有不同于LHA或VMH的神经机制或下行神经通路。     

Morphofunctional characteristics of adrenal reactivity in rats of different ages

Ultrastructural peculiarities of the cortical and medullary substance of the adrenals have been studied in mature (8-month-old) and old (26-month-old) intact white male rats and in rats of the same age groups in 3 h after electrical stimulation of the hypothalamic ventromedial nuclei. By means of certain biochemical methods contents of hormones (corticosterone, adrenaline and noradrenaline) have been estimated, as well as that of cholesterin and ascorbic acid in blood and adrenal tissues. After the hypothalamus is stimulated in the mature rats, certain peculiarities in the adrenals reactivity are revealed; they demonstrate positive ultrastructural and functional correlation of secretory cells in the cortex and medulla and are characterized with hypertrophy of the nuclei, increased amount of polyribosomes, hypertrophied Golgi complex and canaliculi of the endoplasmic reticulum and increased contents of corticosteroids and catecholamines in blood. In the old rats after stimulation of the hypothalamus, certain unequal ultrastructural and functional peculiarities are revealed. They demonstrate both disturbance of the hypothalamic regulation of the adrenal function at ageing and decreased adaptive possibilities of the adrenal secretory cells at the subcellular level.     

An analysis of the neuronal processes in the activating brain systems of the rat during the acquisition of an instrumental defense reflex

In chronic experiment, a defensive conditioned reflex was elaborated in rats with electrodes implanted in the reticular oral pons nucleus, cortico-medial group of amygdalar nuclei, ventromedial hypothalamic nucleus and central grey substance of the midbrain. Synchronization of the activity of neuronal groups of emotiogenic formations in the studied brain structures, became enhanced at formation of the conditioned reflex. A dependence was revealed of the level of correlation of limbic neuronal groups activity on functional state of the reticular formation, as well as neurochemical correlation mechanisms. The increase (decrease) of coefficients of correlation of the activity of neuronal ensembles of limbic structures was accompanied by a change of evoked potentials parameters recorded in them.     

Peculiarities of Formation and Reversibility of Neurogenic Stress-Related Emotional Disorders in Rats

In experiments on rats, we modeled neurogenic stress-induced emotional disorders (stress was evoked by repetitive nociceptive stimulation) and studied their peculiarities within the stressory and post-stressory periods. In these animals, drastic changes in the brain electrical activity and emotional behavior gradually developed; such changes were manifested over a long time period after cessation of the stressory influences. Our experiments demonstrated that tight and stable interrelations among brain limbic structures and negative hypothalamic emotional centers are formed under conditions of prolonged action of emotional stress. This results in the development of a protracted state of negative emotional excitation. The hippocampus is considered one of the key limbic structures responsible for the development of stable pathological stress-related reactions of the brain. Within the post-stressory period, we observed dramatic worsening of the general functional state of the animals, which developed in a parallel manner with intensification of the activity of the negative emotiogenic brain system. It is probable that the existence of periods of unstable equilibrium between oppositely directed emotional reactions in the dynamics of stress and after cessation of stressory influences is a common rule. Such periods reflect peculiarities of rearrangements in the adaptive brain mechanisms under conditions of a stable change in the mode of brain functioning in one particular situation or another.     

Adrenomedullary origin of the hindquarter vasodilation during the transposition response of the rat

Transposing a rat from the home cage to a new cage produces a cardiovascular response (transposition response) characterized by an increase in hindquarter blood flow with unchanged systemic arterial pressure. Arterial blood samples were collected from rats before and during this response for radioenzymatic assay of catecholamines. During the transposition response, the concentration of adrenaline and noradrenaline in plasma increased about six- and two-fold, respectively. Ablation of the adrenal medulla prevented these changes in plasma catecholamine concentration. Constant i.v. infusion of adrenaline, at rates producing a hindquarter flow approximately matching that observed during the transposition response, evoked an increase in plasma adrenaline concentration also approximately matching the increase observed during the transposition response. It is concluded that the increase in plasma adrenaline secreted from the adrenal medulla is the main cause of the increase in hindquarter blood flow in the transposition response.     

Effect of positive and negative emotional states on the electrical activity of the auditory cortex in rabbit ontogeny

It has been shown that in all age groups of animals, self-stimulation of the hypothalamus is accompanied with the decrease in the latent period and the increase in the amplitude of the evoked potential (EP) in the auditory cortex. During negative stimulation, the increase in temporal parameters of the response takes place together with the decrease in the amplitude of the EP and the onset of secondary waves. Significant age changes were revealed in the recovery of the initial pattern of the EP after cessation of stimulation of emotiogenic zones. The recovery of the EP after stimulation of the "reward" zone in younger rabbits occurs 4 times faster than in adult animals, whereas in the former the recovery period of the EP after stimulation of the "punishment" zone is significantly longer.     

Changes in neurochemical properties of mesencephalic reticular neurons during negative emotional reactions

On microiontophoretic application of acetylcholine, noradrenalin, and serotonin to single neurons of the mesencephalic reticular formation of unanesthetized rabbits, qualitative changes in responses to one or more of these biologically active substances were discovered in about 50% of cells after electrical stimulation of the negative emotiogenic zone of the ventromedial hypothalamus. Changes in chemical sensitivity of reticular neurons to noradrenalin and serotonin were observed twice as often as to acetylcholine. It is suggested that a reorganization of the neurochemical properties of the central neurons may be one of the mechanisms of formation of negative emotional states.P. K. Anokhin Research Institute of Normal Physiology, Academy of Medical Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 13, No. 5, pp. 506–514, September–October, 1981.     

Spread of excitation from the ventromedial hypothalamus to the limbic-reticular structure of the brain

The sequence of origination of the evoked potentials in different regions of the septum amygdale and the reticular formation in response to the gradually increasing stimulation of the hypothalamic ventromedial nucleus was studied. As demonstrated, excitation that initially occurs in the hypothalamic ventromedial nuclei embraced first the structures of the septum and rostral reticular formation and then more caudal region of the reticular formation and amygdala.     

Similar poststimulatory pressor responses with different mechanisms in response to excitation of the locus coeruleus before and after acute adrenalectomy

Electrical stimulation of the locus coeruleus in anesthetized rats evoked a biphasic pressor response consisting of an initial sharp rise in blood pressure at the onset of stimulation, followed by a second elevation after cessation of the stimulus. This response, which was accompanied by an increase in plasma noradrenaline and adrenaline levels, was stable and could be easily reproduced over time. Sympathectomy by administration of guanethidine selectively abolished the primary pressor response. beta-Adrenergic blockade by intravenous administration of sotalol enhanced the secondary pressor response without affecting the primary component. Adrenal demedullation performed 24-48 h before the experiments selectively prevented the secondary pressor component. In contrast, acute adrenalectomy carried out during the experiment to impair the adrenomedullary secretions eliminated the secondary pressor response to stimulation of the locus coeruleus only in sympathectomized or in sotalol-treated rats but not in intact rats in which the response persisted. The latter, however, could be abolished by the administration of either guanethidine or sotalol, and it disappeared following repeated stimulation of the locus coeruleus. The study demonstrates that similar poststimulatory pressor responses with different underlying mechanisms can be elicited on excitation of the locus coeruleus before and after acute adrenalectomy in the rat. The results also suggest that intraneuronal adrenaline may be involved in the response evoked in acutely adrenalectomized animals.     

Epinephrine-independent production of hyperuricemia by means of hypothalamic stimulation in the conscious rat

The electrical stimulation of the ventromedial hypothalamus with 0.6 mA current produced an acute hyperuricemia associated with a rise in plasma allantoin in the conscious rat. Adrenal demedullation did not depress the hyperuricemic response. Even after the demedullation, neither propranolol nor phentolamine had any significant effects as well. These results indicate that endogeneous catecholamines are not involved in the production of the hyperuricemia; this is in sharp contrast with our previous result demonstrating the development of hyperuricemia via adrenal epinephrine by stimulating the ventromedial nucleus with 0.2 mA current. It is concluded therefore that ventromedial hypothalamic stimulation is capable of producing two different types of hyperuricemia, i.e. adrenal-epinephrine-dependent and epinephrine-independent, by varying the intensity of the stimulation current.