The influence of adrenal medullectomy on the development of ethanol-induced cardiac hypertrophy

Cardiac hypertrophy was assessed in adrenal medullectomized and sham control rats given ethanol in a liquid diet mixture, intragastrically, in severely intoxicating doses at 8-h intervals for 48 and 96 h. The ethanol treatments produced increases of some 20% in wet and dry proportional heart weights in the control animals, but this rapid development of hypertrophy was less apparent in the medullectomized rats. Hearts of the medullectomized animals given ethanol were heavier than those of pair-matched controls given isocaloric maltose-dextrin in the diet mix. These increases were not statistically significant. The ethanol treatments produced, in addition, equivalent increases in the weight of the adrenal glands of both medullectomized and control animals. Medullectomy was evaluated by analysis of adrenal glands and urine samples for catecholamines. The majority of adrenals from the demedullated group had nondetectable amounts of catecholamines and minimal quantities were found in the remainder. Adrenaline was not detected generally in urine samples from this group. The adrenaline contents of adrenals from sham controls given ethanol were markedly reduced by the ethanol treatments, whereas the quantities in urine were many times greater than those from rats given maltose-dextrin. Urinary noradrenaline levels were increased in both control and medullectomized rats given ethanol. The results of this study identify that adrenal medullary catecholamines participate in the rapid development of cardiac hypertrophy that results from severe, continuing ethanol intoxication in the rat.     

Lack of cardiac alpha 1-adrenoceptor involvement in ethanol-induced cardiac hypertrophy

The development of cardiac hypertrophy was examined in rats given ethanol in a nutritionally adequate, liquid diet mixture, by intubation, in severely intoxicating doses at 8-h intervals for up to 96 h, alone or in combination with prazosin. Other groups of rats received isocalorically paired quantities of maltose-dextrin. Adrenal glands of rats receiving ethanol were larger than those from control animals. Prazosin did not affect this measure. In contrast, concurrent treatment with prazosin enhanced the loss of medullary catecholamines and noradrenaline from hearts of rats given ethanol, while it had no such effects in controls. Reflecting these changes, excreted quantities of catecholamines were markedly increased in rats given ethanol and prazosin. Hearts of animals given the combined treatment of ethanol and prazosin showed cardiomegaly at 24 h, when there was an increase of about 20% in proportional heart weight, an increase that persisted through the remaining 3 days of the study. At 48 h, hearts of animals given prazosin and ethanol were heavier than those given ethanol alone. A significant correlation between catecholamine excretion and the development of cardiac hypertrophy was identified. The results of the study show that prazosin can enhance effects of ethanol on the peripheral sympathetic nervous system. Moreover, the results suggest that postsynaptic alpha 1-adrenoceptor stimulation in the heart is not an important contributor to ethanol-induced cardiomegaly.     

Chemical sympathectomy with 6-hydroxydopamine potentiates intracerebroventricularly applied bombesin-induced increase in plasma adrenaline

Intracerebroventricular administration of bombesin induced a marked increase in plasma level of adrenaline and a slight increase in that of noradrenaline in rats anesthetized with urethane. The bombesin-induced increase in adrenaline was potentiated by chemical sympathectomy with 6-hydroxydopamine (6-OHDA). On the other hand, adrenalectomy did not affect plasma level of noradrenaline in the bombesin-treated animals. In the splanchnicotomized rats, direct stimulation of the adrenal glands by intravenously administered nicotine increased plasma level of both adrenaline and noradrenaline. These increases were, however, not potentiated by chemical sympathectomy with 6-OHDA. Pretreatment with capsaicin, a potent toxin selective to sensory neurons, potentiated the bombesin-induced increase in plasma level of adrenaline. In these capsaicin pretreated rats, chemical sympathectomy did not potentiate the bombesin-induced increase in plasma level of adrenaline to any great extent. These results suggest that chemical sympathectomy with 6-OHDA potentiated the bombesin-induced increase in plasma adrenaline probably due to a disinhibitory activation of the splanchnic nerve by as yet unidentified but capsaicin sensitive neuron mechanisms.     

Chemical sympathectomy and diurnal fluctuations of noradrenaline calorigenic action in the rat

In the rat, in which a diurnal fluctuation of the sensitivity to noradrenaline was previously found, the effect of injected 6-hydroxydopamine (6-OHDA) was investigated. The heat production and catecholamines contents in the interscapular brown adipose tissue, heart and adrenals were measured. Chemical sympathectomy induces a disappearance of diurnal fluctuation in the sensitivity to injected noradrenaline. In these animals a lower capacity for heat production was found. However, a significant calorigenic effect of injected noradrenaline in 6-OHDA-treated animals was still present. In sympathectomized animals a depletion of noradrenaline from interscapular brown adipose tissue and the heart was observed. Besides, a change in adrenaline/noradrenaline ratio was found in the adrenals.     

Metoprolol suppresses the development of ethanol-induced cardiac hypertrophy in the rat

Subacute, severe intoxication with ethanol stimulates the peripheral sympathetic nervous system in the rat and enhances the excretion of adrenaline and noradrenaline. In association with this effect there is a rapid development of cardiac hypertrophy, with proportional heart weight increasing by 12% within 48 h. At this time adrenal medullary adrenaline content was depressed by more than 35%, whereas nonadrenaline content of the adrenal and heart were not affected. Metoprolol (20 mg/kg, t.i.d.) was without effect when used alone and had little if any impact on the ethanol-induced changes. Metoprolol (100 mg/kg, t.i.d.) reduced adrenal catecholamine content, but not cardiac noradrenaline content, and diminished cardiac weight in control animals. The combination of ethanol with the high dose of methoprolol enhanced the loss of medullary catecholamine and reduced cardiac noradrenaline content, whereas cardiac weight was the same as in control animals. A correlation between sympathetic activation and increasing cardiac mass and its antagonism by metoprolol implies a beta-adrenoceptor mediated link in the cardiac hypertrophy induced by ethanol.     

THE INFLUENCE OF ADRENORECEPTOR ACTIVITY ON CRYPT CELL PROLIFERATION IN THE RAT JEJUNUM

The influence of adrenergic stimulation, adrenergic blockade and sympathectomy on crypt cell cycle time and mitotic time in rat jejunum was studied. Alpha adrenergic stimulation by noradrenaline was found to shorten both cell cycle and mitotic times, whereas beta adrenergic stimulation by adrenaline or isoprenaline was found to prolong both cell cycle and mitotic times. Conversely, alpha adrenergic blockade by phentolamine prolonged cell cycle time and beta adrenergic blockade by propranolol or practolol shortened cell cycle time but not mitotic time. Both chemical and surgical sympathectomy inhibited crypt cell proliferation. Chemically sympathectomized animals manifested supersensitivity to exogenous noradrenaline.     

Rat heart GDNF: effect of chemical sympathectomy

Developmental studies indicate a role for GDNF in survival of motor, autonomic, and sensory neurons. However, no study attempted to demonstrate its participation in autonomic nerve regeneration. In this work, chemical sympathectomy by 6-hydroxydopamine provided the model for assessing heart GDNF expression during denervation and axonal regrowth. A glyoxylic acid-based histochemical technique evaluated the noradrenergic innervation. ELISA determined GDNF levels after concentrating heart homogenates. Light and ultrastructural in situ hybridization and immunocytochemistry were used for identifying cells expressing GDNF mRNA and protein. In control rats, the GDNF cardiac levels were significantly higher in 37-day-old animals in comparison with those aging 60 days. In sympathectomized rats, GDNF cardiac levels were significantly higher 7 days after sympathectomy and dropped to control levels at day 30. GDNF mRNA was expressed in atrial and ventricular myocytes from normal and sympathectomized rats. GDNF immunoreactivity occurred on atrial granules and quantitative analysis in electron micrographs confirmed ELISA-obtained data. In ventricular myocytes gold particles occurred sparsely. These findings constitute the first evidence for GDNF synthesis by cardiomyocytes and postulate a role for this factor soon after cardiac sympathetic denervation, probably in nerve regeneration. In atrial myocytes, GDNF is probably secreted by regulated pathway.     

Age changes in rat vasomotor reflexes and sympathetic neuron ultrastructure following chemical sympathectomy]

Prolonged administration of guanethidine (20 mg/kg) to newborn rats caused a marked reduction in the number of cells in stellate ganglia. The administration of guanethidine for 14 days decreased the amount of cells to 30% of the normal (partial sympathectomy), and for 28 days--to 0.5% (complete sympathectomy). At the age of two months the blood pressure pressor reflexes to asphyxia and femoral nerve stimulation were absent in both groups of the sympathectomized animals. These responses, however, were restored in the partially sympathectomized animals at the age of four months. No restoration took place in the completely sympathectomized animals. The electron microscopic studies of neurons in the partially sympathectomized animals showed the presence of a great number of neurofibrils. According to literature data this fact was typical of cells in which an active growth of axon fibers took place.     

Natriuretic and diuretic action of centrally administered rat atrial natriuretic peptide (99-126): possible involvement of aldosterone and the sympathoadrenal system

Intracerebroventricular (ICV) administration of rat atrial natriuretic peptide (99-126) (rANP) to conscious male hydrated rats resulted in a dose-related increase in urinary volume and sodium excretion over a 6-h period of urine collection. A diminished mineralocorticoid effect on the kidneys may explain the natriuretic phenomenon. This hypothesis was tested by ICV rANP injection (1.25 microgram/5 microL) in conscious hydrated rats pretreated beforehand with d-aldosterone (20 micrograms/kg, ip). Although the absolute amount of sodium excreted was reduced, aldosterone did not affect rANP-induced sodium output at 1 and 3 h. Rats that were sham-operated or bilaterally adrenalectomized after 4 days were pretreated with aldosterone and given an oral water load followed by ICV rANP or saline. The possible participation of the peripheral sympathetic nervous system in the central action of rANP was evaluated in rats pretreated with 6-hydroxydopamine. In sympathectomized and adrenalectomized rats natriuresis and diuresis were still evident after rANP. Our results indicate that the natriuretic effect of ICV rANP is independent of mineralocorticoids. Likewise, diuresis and natriuresis can occur in the absence of the adrenal glands and are independent from the neural tone that the adrenergic system exerts on sodium reabsorption.     

Extra virgin olive oil increases uncoupling protein 1 content in brown adipose tissue and enhances noradrenaline and adrenaline secretions in rats

The effects of extra virgin olive oil (EV-olive oil) on triglyceride metabolism were investigated by measuring the degree of thermogenesis in interscapular brown adipose tissue (IBAT) and the rates of noradrenaline and adrenaline secretions in rats, both in vivo and in situ. In Experiment 1 (in vivo), rats were given an isoenergetic high-fat diet (30% fat diet) containing corn oil, refined olive oil, or EV-olive oil. After 28 days of feeding, the final body weight, weight gain, energy efficiency, perirenal adipose tissue and epididymal fat pad and plasma triglyceride concentrations were the lowest in the rats fed the EV-olive oil diet. The content of uncoupling protein 1 (UCP1) in IBAT and the rates of urinary noradrenaline and adrenaline excretions were the highest in the rats fed the EV-olive oil diet. In Experiment 2 (in situ), the effects of the extract of the phenolic fraction from EV-olive oil and a compound having excellent characteristics as components of EV-olive oil, hydroxytyrosol, on noradrenaline and adrenaline secretions were evaluated. The intravenous administration of the extract of the phenolic fraction from EV-olive oil significantly increased plasma noradrenaline and adrenaline concentrations, whereas that of hydroxytyrosol had no effect. These results suggest that phenols except hydroxytyrosol in EV-olive oil enhance thermogenesis by increasing the UCP1 content in IBAT and enhancing noradrenaline and adrenaline secretions in rats.     

Evidence for increased protein synthesis in myocardial microvessels after chronic sympathectomy in the dog

Using histochemical methods, evidence of increased protein synthesis was observed in microvessels (diameter less than 100 micrometers) from dog hearts which had been sympathectomized 2 weeks earlier when compared to controls. Such evidence consisted of increased staining intensity for the enzyme glucose-6-phosphate dehydrogenase and for the nucleic acids RNA and DNA. Increases in reaction intensities were noted in approximately 30% of the microvessels examined from the sympathectomized hearts, and may imply a vascular proliferation in these hearts. However, since no increase in capillary density was observed in sympathectomized hearts, a vascular proliferation, if it occurred, may have been involved in development of the coronary collateral circulation. These data support previous results indicating that collateral resistances are reduced following chronic cardiac sympathectomy while resistance of the coronary vascular bed itself is not altered.     

Cardiovascular, metabolic and endocrine effects of chemical sympathectomy and of adrenal demedullation in fetal sheep

A procedure in fetal sheep for causing peripheral sympathectomy by regular intravascular guanethidine sulphate administration and for causing adrenal demedullation by intragland injection of acid formalin is reported. Demedullation substantially removed adrenaline from the fetal circulation, but has a small effect only on noradrenaline. Plasma noradrenaline levels were depressed by 50% when demedullated fetuses were also subject to peripheral sympathectomy by guanethidine sulphate treatment. This provides some evidence that the paraganglia in the sheep fetus contributes to resting plasma catecholamines. Furthermore the ability of adrenal demedullation to increase markedly this pool of extra-adrenal chromaffin tissue indicates that in the fetus adrenal activity regulates the growth of these para-aortic bodies. In response to sympathectomy plasma vasopressin concentrations rose substantially, whilst adrenal demedullation caused a small rise. Demedullation and sympathectomy depressed fetal plasma glucose and elevated plasma cortisol. In both sympathectomised and adrenal demedullated fetuses resting heart rate and blood pressure was not depressed. However in those with a depleted peripheral nervous system periods of cardiovascular instability were apparent after 2-3 days of treatment with guanethidine sulphate. Hence there were regular episodes where fetal blood pressure and heart rate fell sharply followed 60-90s later by very large increases in blood pressure sustained for up to 10 min and associated with substantial production of plasma vasopressin and catecholamines. These results show that fine cardiovascular control in the fetus requires an intact sympathetic system as the endocrine system is too slow responding to effectively maintain reflex vascular control.     

Electrophysiological effects of ouabain in 6-hydroxydopamine pretreated dogs

Chemical sympathectomy and bilateral vagotomy were used to evaluate the contribution of each division of the autonomic nervous system in the electrophysiological actions of ouabain. Intact and chemically sympathectomized dogs were given successive and cumulative doses of ouabain until toxicity became manifest (ventricular extrasystoles and (or) ventricular tachycardia). An additional group of normal and sympathectomized animals was also submitted to bilateral vagotomy in the presence of a therapeutic dose of ouabain. Sinus cycle length, AH interval of the His bundle electrogram, atrioventricular junctional effective and functional refractory periods were increased by ouabain at therapeutic doses. These effects were no different in sympathectomized dogs than in intact dogs, indicating the absence of any significant contribution of efferent sympathetic neural activity. However, our results suggested that vagal enhancement was the main mechanism whereby ouabain produced sinus bradycardia and depression of atrioventricular conduction. Sympathectomy with 6-OHDA did not modify nor abolish ouabain toxicity. However, toxic doses were significantly higher in sympathectomized animals than in normal animals. Considering that increasing heart rate by cardiac pacing or vagotomy significantly lowered toxic doses of ouabain in both intact and sympathectomized dogs, it is possible that sympathectomy could influence ouabain toxicity by altering heart rate alone.     

Effect of sympathectomy on the heart pump function in rats during postnatal ontogenesis

The influence of guanetidine sympathectomy (30 mg/kg) on the heart pump function in rats during 3 weeks in postnatal ontogenesis has been investigated. Sympathectomy restrains age-dependent establishment of stroke volume, cardiac output and heart rate. The adaptation effects of regular physical training do not develop in the animals with sympathectomy, i.e. heart rate does not decrease and stroke volume does not increase. The initial stage of adaptation of the sympathectomized animals to physical training is accompanied by decrease in stroke volume and remarkable increase in heart rate which indicates the reduction of contractile activity in the myocardium.     

Cardiac biochemical and functional adaptations to exercise in sympathectomized neonatal rats

This study was undertaken to examine the influence of guanethidine monosulfate-induced sympathectomy on exercise-induced adaptations of cardiac contractile protein and on acute hemodynamic responses to exercise involving female neonatal rats. Four groups of rats were studied: 1) normal sedentary (NS), 2) normal trained (NT), 3) sympathectomized sedentary (SS), and 4) sympathectomized trained (ST). The 9-wk running program, which began at 20 days of age, induced increases in whole-body maximal O2 consumption and skeletal-muscle citrate synthase activity in both NT and ST groups compared with NS (P less than 0.05). Submaximal exercise tests demonstrated circulatory adaptations for NT, SS, and ST groups compared with NC; however, the ST group demonstrated the greatest degree of altered cardiac function (decreased heart rate, left ventricular pressure, and contractility index) during exercise. Also, significant reductions in both myosin- and Ca2+-regulated myofibril adenosinetriphosphatase (ATPase) activity and increases in the relative content of the low ATPase myosin isozyme, V3, occurred in the hearts of the two trained groups (P less than 0.05). These findings suggest that chronic exercise involving normal and sympathectomized neonatal rats improves cardiac function without compromising maximal exercise capacity. Also, the exercise-related adaptation involving myosin isozyme shifts are exaggerated when involvement of the sympathetic nervous system is reduced during training.     

The influence of adrenoceptor activity on cell proliferation in colonic crypt ipithelium and in colonic adenocarcinomata.

The effects of chemical sympathectomy and of the injection of amines or amine-receptor blocking drugs on cell proliferation in colonic crypts and in dimethylhydrazine-induced colonic carcinomata is examined in rats using a stathmokinetic technique. In animals which had been chemically sympathectomized by injection of 6-hydroxydopamine cell proliferation essentially ceased in the colonic crypts but continued at a normal rate in the tumours. Stimulation of alpha-adrenoceptors by metaraminol, a drug with properties similar to noradrenaline, caused acceleration of cell proliferation in colonic crypts but not in tumours. Conversely, blockade of alpha-adrenoceptors by phentolamine inhibited cell proliferation in crypts but not in tumours. Injection of adrenaline, predominantly a beta-adrenergic agonist, inhibited cell proliferation in the tumours but not in colonic crypts whereas blockade of beta-adrenoceptors by propranolol accelerated cell proliferation in tumours but not in colonic crypts. It is postulated that cell proliferation in the crypts of Lieberkühn in rat colon resembles that in rat jejunum in being controlled by the autonomic nervous system. However, tumour cell proliferation does not appear to be subject to such regulation.     

Effects of neonatal sympathectomy on brown fat development and susceptibility to high fat diet induced obesity in mice.

Injections of 6-hydroxydopamine in mouse neonates caused extensive and long lasting damage to the sympathetic nervous system and impaired brown fat development. Brown adipose tissue (BAT) thermogenic capacity of sympathectomized mice (up to 120 days old) was reduced because of marked reductions in the tissue mitochondrial protein content and the mitochondrial concentration of uncoupling protein, as assessed by [3H]GDP binding and immunoassay. Neonatal sympathectomy did not affect BAT DNA content. Sympathectomized mice also had reduced epinephrine-stimulated rates of oxygen consumption. BAT of sympathectomized mice failed to respond by increases in [3H]GDP binding to isolated mitochondria and uncoupling protein concentration when animals were offered a palatable high-fat dietary supplement that increased calorie intake of both normal and sympathectomized mice. The high-fat diet caused increases in body weight, carcass fat, and gonadal white fat pad weights in sympathectomized animals that were similar to those of control mice. These results show that inactivation of BAT metabolism did not accentuate the development of obesity caused by a dietary supplement rich in fat and suggest that stimulation of BAT metabolism was not very effective in counteracting the obesity-inducing effect of this diet.     

Sympathetic regulation of adrenal medullary function during aging

Our recent studies on changes in sympathoadrenal medullary function with age in anesthetized Wistar rats were reviewed. Although secretion rates of adrenaline and noradrenaline from the adrenal gland under resting conditions varied among animals, they gradually increased after 300 days and reached a level 2-4 times higher at 800-900 days compared with that of 100 days. Spontaneous activity of a single sympathetic nerve fiber under resting conditions also increased during aging in a manner similar to the catecholamine secretion rates. Reflex responses of mass activity of adrenal sympathetic nerve fibers to stimulation of baroreceptor and cutaneous mechanoreceptors were compared in young adult (4 months old) and aged (26 months old) Wistar rats under strictly controlled conditions for anesthesia, respiration and body temperature. Under these conditions the reflex depression in response to baroreceptor stimulation and cutaneous brushing as well as reflex excitation in response to cutaneous pinching were quite well maintained in the aged rats.     

Compensatory-adaptive modifications of the C-cell apparatus of the thyroid in normal rats of various ages and in partial sympathectomy

Population of the thyroid C-cells, normal and at sympathectomy has been analyzed in 75 white male rats at the age of 1, 3 and 6 months by means of electron microscopical, morphometrical and radioimmunological methods. Partial sympathectomy has been performed using subcutaneous injection of guanethidine (15 mg/kg of body mass) during 14 days after birth. During the period from 1 up to 6 months of life in intact rats a decrease in C-cells functional activity is observed. Under conditions of sympathectomy in 30-day-old animals decreasing extrusion processes of the secretory material are observed. During successive periods of life (3 and 6 months) mechanisms of paracrinic evacuation of hormonal products enhance considerably, nuclear volume of the cells and number of C-cells in the field of vision increase. Their hyperplastic alterations in the sympathectomized thyroid gland are more pronounced in 3-month-old animals.     

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.