Distribution of immunoreactive somatostatin in the primate hypothalamus

Immunocytochemical methods were used to compare the localization of somatostatin (SRIF) in the human and rhesus monkey hypothalamus. The distribution of SRIF-containing cell bodies and fibers is similar in the two species. Perikarya are located predominantly in the periventricular region and to a lesser extent in the ventromedial nucleus. Fibers occur in dense clusters within the periventricular region, ventromedial nucleus, arcuate nucleus, median eminence, and pericommissural area of both species. Analysis of serial sections suggests that fibers originate from cells in the periventricular region, extend ventrally through the ventromedial and arcuate nuclei to terminate around the portal vessels of the infundibular stalk, and thereby participate in the regulation of anterior pituitary function. Somatostatinergic fibers are also found surrounding non-immunoreactive perikarya in the ventromedial nucleus and periventricular region of both primates. This arrangement may support somatostatin's postulated role as a neurotransmitter or neuromodulator. The strong similarity between the localization of hypothalamic SRIF in the human and rhesus monkey supports the use of the rhesus monkey as a model for the study of somatostatin as a neuroendocrine regulatory in the human.     

Role of the hypothalamus in inhibiting the hypophysis-adrenal cortex system through the feedback mechanism

Chronic experiments were made on intact rabbits and rabbits with destroyed paraventricular and ventromedial nuclei of the hypothalamus to explore the hydrocortisone-induced inhibition of the stressor response of the pituitary-adrenocortical system. Intravenous injection of hydrocortisone in a dose of 100 micrograms/kg 5 minutes before immobilization stress led to inhibition of corticosteroid elevation induced by immobilization of the animals. Inhibition of the stressor reaction was maximal in intact animals, less in rabbits with destroyed ventromedial nuclei, and further less in animals with destroyed paraventricular nuclei. The paraventricular and ventromedial nuclei of the hypothalamus are necessary for inhibition of the pituitary-adrenocortical system by the feedback mechanisms.     

Neurochemical Characterization of Extracellular Serotonin in the Rostral Ventromedial Medulla and Its Modulation by Noxious Stimuli

Abstract: Using in vivo microdialysis, we have characterized serotonin release from the rostral ventromedial medulla of the freely moving rat. Addition of tetrodotoxin or removal of calcium from the dialysis solution diminished the dialysate serotonin content, suggesting that spontaneous, calcium channel- and sodium channel-dependent neuronal release mechanisms contribute to the extracellular serotonin collected from the rostral ventromedial medulla. Extracellular serotonin concentration was increased by depolarization (with 100 m M potassium) and by the local administration of either a reuptake blocker (citalopram), a monoamine oxidase inhibitor (pargyline), or amphetamine. Serotonin release was reduced significantly by 8-hydroxy-2-(di- n -propylamino)tetralin, suggesting that serotonin_1A receptors may regulate release from rostral ventromedial medulla neurons. Because the basal serotonin concentration in the rostral ventromedial medulla was approximately twofold higher than that collected from the rostral ventrolateral medulla, a region that contains serotonin terminals but many fewer cell bodies, the possibility of release of serotonin from rostral ventromedial medulla neurons is discussed. Finally, intraplantar formalin injection significantly increased serotonin release, suggesting that this neurotransmitter contributes to nociceptive modulation by regulating the outflow of the rostral ventromedial medulla neurons.     

The significance of hyperphagia and diet composition on the metabolism in ventromedial hypothalamic lesioned male rats

The metabolic consequences of ventromedial hypothalamic lesion were studied in a group of aged male rats which were obese and had decreased response to insulin. The effects of hyperphagia and ventromedial hypothalamic lesion per se were separated by comparing experimental animals fed isocalorically with controls and animals fed ad libitum. Ventromedial hypothalamic lesion as such led to increases in the glucose conversion to fatty acid and in lipoprotein lipase activity in adipose tissue. Protein catabolism as reflected by plasma urea levels, was enhanced. The lipoprotein lipase activity in heart tended to be lower after VMH lesion. These metabolic changes were amplified in the VMH lesioned rats fed ad libitum. The liver glycogen content was lowered by VMH lesion, but this effect was abolished by hyperphagia. In parallel experiments the influence of diet composition was studied by feeding similar groups with diet of high fat content. The glucose incorporation in fatty acids was in all groups markedly and similarly inhibited by the high fat diet. The increase in lipoprotein lipase activity in heart and adipose tissue of control rats with high fat intake could not be demonstrated in any of the groups with ventromedial hypothalamic lesion. The plasma urea level in the control group was not affected by the diet, but tended to increase in the ventromedial hypothalamic lesioned groups on high fat intake. These findings demonstrate that the well known metabolic effects of ventromedial hypothalamic lesions are also manifest in obese insulin resistant male rats. Furthermore, the responses to changes in diet composition are different from those of the control rats.     

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.     

Hyperuricemia in the rat following hypothalamic stimulation

Ventromedial hypothalamic electrical stimulation elicited a marked elevation of plasma uric acid with a rise in plasma allantoin in the rat. The magnitude of this hyperuricemia was greater than that of the hyperglycemia which was also produced by the ventromedial stimulation. On the other hand, lateral hypothalamic stimulation did not significantly affect the plasma levels of either of the purine metabolites. These results strongly indicate that the ventromedial hypothalamus is specifically very active in producing hyperuricemia in the rat.     

Estrogen increases proenkephalin messenger ribonucleic acid levels in the ventromedial hypothalamus of the rat

The effects of estrogen on proenkephalin (PE) gene expression were measured in neurons of the ventromedial hypothalamus. Slot blot hybridization analysis indicates that the levels of PE mRNA in the ventromedial hypothalamus of ovariectomized rats increase 3.1-fold after 2 weeks of estrogen replacement. In situ hybridization reveals that the estrogen-inducible enkephalinergic neurons are located in the ventrolateral aspect of the ventromedial nucleus, a subnucleus known to contain many estrogen-concentrating neurons. The increase in PE mRNA levels is due to both a 63% increase in the number of detectable PE mRNA-containing neurons and a 2.0-fold increase in the levels of PE mRNA per enkephalinergic neuron (1.63 x 2.0 = 3.3-fold overall induction). This estrogen-regulated enkephalinergic cell group may represent part of the neural network mediating estrogen's effects on reproductive behavior and/or other neuroendocrine processes.     

The role of nigral projections to the thalamus in drug-induced circling behaviour in the rat

Unilateral injection of 6-hydroxydopamine (6-OHDA) into the ascending nigrostriatal pathway caused contraversive circling to apomorphine and ipsiversive circling to amphetamine respectively. An electrolesion of the ventromedial thalamic nucleus on the same side as the 6-OHDA lesion reduced apomorphine-induced circling, but not that to amphetamine. An electrolesion of the ventromedial thalamic nucleus on the side opposite to the 6-OHDA lesion reduced amphetamine circling but not that to apomorphine. Bilateral electrolesions of the ventromedial thalamic nucleus reduced neither apomorphine- nor amphetamine-induced circling. Electrolytic lesions of the parafascicular thalamic nucleus did not reduce apomorphine- or amphetamine-induced circling in animals with a unilateral 6-OHDA lesion of the nigrostriatal pathway. Knife cuts rostral and dorsal to the substantia nigra did not attenuate circling induced by injection of muscimol into the substantia nigra. Circling due to activition of nigral output pathways can be mediated by descending nigro-reticular pathways.     

The ventromedial nucleus of the hypothalamus and the hormonal arousal of sexual behaviors in the female rat

Bilateral lesions of the ventromedial nucleus of the hypothalamus interfered with the estrogenic induction of sexual receptivity in the female rat, but seemingly did not affect the ability of female rats to show lordosis following combined stimulation with estrogen and progesterone. In addition, ventromedial hypothalamic lesions did not affect the ability of females to show male-like sexual activity in response to exogenous androgenic stimulation.     

Afferent connections in the ventromedial hypothalamus of rats demonstrated by retrograde transport of horseradish peroxidase

Projections into rat ventromedial hypothalamus were studied with retrograde transport of horseradish peroxidase (HRP). Following injection of HRP into ventromedial hypothalamus, labeled neurons were found in cortical and medial amygdaloid nuclei, ipsilateral mediodorsalis thalamus (MD), dorsal raphe nucleus, and contralateral sensorimotor cortex. Futhermore, labeled axons that connect directly amygdala with hypothalamus (DAH) also were found.     

Glucagon-related peptides in the rat hypothalamus

Summary Immunohistochemically, nerve fibers and terminals reacting with anti-N-terminal-specific but not with anti-C-terminal-specific glucagon antiserum were observed in the following rat hypothalamic regions: paraventricular nucleus, supraoptic nucleus, anterior hypothalamus, arcuate nucleus, ventromedial hypothalamic nucleus and median eminence. Few fibers and terminals were demonstrated in the lateral hypothalamic area and dorsomedial hypothalamic nucleus. Radioimmunoassay data indicated that the concentration of gut glucagon-like immunoreactivity was higher in the ventromedial nucleus than in the lateral hypothalamic area. In food-deprived conditions, this concentration increased in both these parts. This was also verified in immunostained preparations in which a marked enhancement of gut glucagon-like immunoreactivity-containing fibers and terminals was observed in many hypothalamic regions. Several immunoreactive cell bodies were found in the ventromedial and arcuate nuclei of starved rats. Both biochemical and morphological data suggest that glucagon-related peptides may act as neurotransmitters or neuromodulators in the hypothalamus and may be involved in the central regulatory mechanism related to feeding behavior and energy metabolism.     

Influence of renin on the effects of electric stimulation on the ventromedial hypothalamus

The influence of intraventricular injection of different doses of renin on the effects of electrical stimulation of the ventromedial hypothalamus was studied. Injection of renin (10 micrograms/kg) into the lateral ventricles of the brain of experimental animals elicited a prolonged elevation of arterial pressure and a decrease of the heart rate, while given in doses of 20 and 30 micrograms/kg it also provoked arrhythmias and ventricular extrasystoles, and a lowering of the threshold of ventromedial hypothalamus stimulation. It was found that under the central action of renin, a short-term stimulation of the ventromedial hypothalamus provoked ventricular extrasystoles.     

Study of electrical activity in the area of the hypothalamic ventromedial nucleus and the lateral hypothalamus of rats fed on a high protein and high fat diet.

The authors studied bioelectric potentials in the area of the hypothalamic ventromedial nucleus and the lateral hypothalamus of rats fed on a standard, a high protein and a high fat diet. On the first 3--6 days after changing from the standard to the high fat and high protein diets, a decrease in the amplitude of electrical activity was recorded in both the areas in question. It was also found that the frequency of electrical activity in the hypothalamic ventromedial nucleus or the lateral hypothalamus rose, after 3 days administration of the high fat or the high protein diet, in correlation to the type of diet, and that, in the frequency spectrum, a change occurred in the proportion of basic frequency in relation to superimposed frequencies distorting it. It was further found that there was a permanent difference between the amplitude of electrical activity in the lateral hypothalamus and the hypothalamic ventromedial nucleus.     

Quantitative protein changes in the hypothalamic neurons of pubertal male rats, castrated neonatally.

The effect of neonatal castration of male rats on the sexual differentiation of the hypothalamus at puberty was studied. Male rats were castrated on days 1, 5 and 7 after birth. Their brains were processed for study on days 83-85. The neurons and cell nuclei of the preoptic area, mediobasal and ventromedial nuclei were assessed for changes in cell and nuclear sizes and dry weight (calculated using interferometric methods). Neonatal castration resulted in size as well as dry weight increase in the neurons of the anterior and mediobasal hypothalamus. The dry weight increased by 34% (P less than 0.001) in the medial preoptic area, by 25% (P less than 0.001) in the arcuate neurons and by 22% (P less than 0.001) in the ventromedial nucleus. The cell nuclei exhibited perceptible weight increase too--in the medial preoptic area 68% (P less than 0.001); 55% in the arcuate neurons (P less than 0.001), and 39% in the ventromedial region. The weight and size increases in neonatally castrated males were equal to those of females of the same age. In rats castrated on day 7, the cell sizes and dry weights of the ventromedial nucleus increased but the cell nuclei exhibited only little change. It is assumed that the changes in the dry weight may be the result of increased synthetic processes in these groups of neurons which are connected with the tonic and cyclic release of gonadotropins. These changes also point to the hypothalamic differentiation shifting to the female type in the absence of the inducing effect of androgens.     

Altered Resting-State Functional Connectivity of the Frontal-Striatal Reward System in Social Anxiety Disorder

We investigated differences in the intrinsic functional brain organization (functional connectivity) of the human reward system between healthy control participants and patients with social anxiety disorder. Functional connectivity was measured in the resting-state via functional magnetic resonance imaging (fMRI). 53 patients with social anxiety disorder and 33 healthy control participants underwent a 6-minute resting-state fMRI scan. Functional connectivity of the reward system was analyzed by calculating whole-brain temporal correlations with a bilateral nucleus accumbens seed and a ventromedial prefrontal cortex seed. Patients with social anxiety disorder, relative to the control group, had (1) decreased functional connectivity between the nucleus accumbens seed and other regions associated with reward, including ventromedial prefrontal cortex; (2) decreased functional connectivity between the ventromedial prefrontal cortex seed and lateral prefrontal regions, including the anterior and dorsolateral prefrontal cortices; and (3) increased functional connectivity between both the nucleus accumbens seed and the ventromedial prefrontal cortex seed with more posterior brain regions, including anterior cingulate cortex. Social anxiety disorder appears to be associated with widespread differences in the functional connectivity of the reward system, including markedly decreased functional connectivity between reward regions and between reward regions and lateral prefrontal cortices, and markedly increased functional connectivity between reward regions and posterior brain regions.     

Spike activity of neurons of the ventromedial hypothalamus of the rat during stress

In fixed Wistar line rats, neuronal activity of the ventromedial hypothalamus was studied in conditions of acute emotional stress elicited by electric stimulation of the ventromedial hypothalamus stochastically alternating with electrocutaneous stimuli. Distinctions were revealed in neuronal activity of the animals with different stress resistance. The pattern of neuronal impulse activity proved to be the most informative one.     

Substance P and effects of ethanol on the central mechanisms of the escape reaction in rabbits

Substance P (SP) effects on the central mechanisms of escape reaction, elicited by threshold electrical stimulation of the ventromedial hypothalamus were investigated in rabbits pretreated with ethanol (0.5 g/kg). SP (30 micrograms/kg) was demonstrated to normalize in 71.4% of cases the excitability of the ventromedial hypothalamus which was decreased by ethanol and restored in 83.3% of cases the facilitatory effects of the midbrain reticular formation in escape reactions. However, SP was ineffective in the restoration of the inhibitory effects of the dorsal hippocamp on the excitability of the ventromedial hypothalamus that was obvious in intact animals. Partial normalizing effect of SP on escape reaction in rabbits after previous ethanol administration can be accounted for by the fact that both undecapeptide and ethanol are similar in their realization of central effects such as an interaction with the same brain neurotransmitters, interference with neuronal enzyme processes and reactions with opiate receptors.     

Ibotenate lesion of the ventromedial hypothalamus lowers hyperthermic effects of prostaglandin E1

This experiment tested the effects of an intracerebroventricular injection of prostaglandin E1 on the sympathetic activation and the thermogenic changes in rats with ibotenate lesions of the ventromedial hypothalamus. Under pentobarbital anesthesia, twelve Sprague-Dawley male rats were lesioned bilaterally in the ventromedial hypothalamus with an injection of ibotenic acid (30 nmol into each side). Sham lesions were carried out in other twelve control rats. After 48 h, all animals were anesthetized with ethyl-urethane. The firing rate of the sympathetic nerves innervating the interscapular brown adipose tissue and the colonic and interscapular brown adipose tissue temperatures were monitored before and after an intracerebroventricular injection of prostaglandin E1 (500 ng) or saline. Prostaglandin E1 induced an increase in the firing rate of sympathetic nerves and the colonic and interscapular brown adipose tissue temperatures. These effects were reduced by the ventromedial hypothalamic lesion. Since ibotenic acid destroys cell bodies, the findings indicate that neurons of the ventromedial hypothalamus play a considerable role in the control of sympathetic activation and the thermogenic changes during prostaglandin E1 hyperthermia.     

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.     

Suppression of gastric acid secretion by intracisternal bombesin does not require the ventromedial hypothalamus

Intracisternal administration of the tetradecapeptide peptide bombesin suppresses gastric acid release. Other studies have shown that the ventromedial hypothalamus (VMH) may have an inhibitory role in gastric regulation. To determine if the inhibition of gastric acid secretion by intracisternally administered bombesin is mediated by the ventromedial hypothalamus, bombesin was injected intracisternally in rats with ventromedial hypothalamic lesions. Neither anterior nor posterior VMH lesions altered the effects of bombesin on gastric acid, concentration, volume, total output, or on serum gastrin. The bombesin-induced rise in gastric pH was very mildly attenuated by both lesions. The previous finding of enhanced gastric acid secretion after anterior VMH lesions was confirmed. The results suggest that the VMH is not crucial in the bombesin-induced inhibition of acid secretion.