Influence of desoxycorticosterone on the reaction of isolated segments of coronary arteries to noradrenaline in the presence of pyrogallol

The effect of the desoxycorticosterone on the noradrenaline-induced relaxation of coronary arteries waw studied in vitro, after a known inhibitor of COMT, pyrogallol. Relaxation induced by noradrenaline was enhanced by desoxycorticosterone. Relaxation in response to noradrenaline was increased by desoxycorticosterone. Pyrogallol potentiated the responses of coronary strips to noradrenaline and also reduced or abolished the enhancing effects of desoxycorticosterone. It is concluded that desoxycorticosterone enhances the reponse of coronary smooth muscle to noradrenaline by inhibiting and enzymatic pathway for the inactivation of catecolamines.     

Influence of desoxycorticosterone on the response of calf coronary artery strips to adrenaline

The effect of desoxycorticosterone on the adrenaline-induced relaxation of coronary arteries was studied "in vitro". It resulted that the effect of adrenaline was enhanced by desoxycorticosterone. It is concluded that desoxycorticosterone potentiates the effects of adrenaline by inhibiting its inactivation by Catechol-O-methyltransferase.     

Influence of desoxycorticosterone on the response of coronary artery segments to adrenaline in the presence of pyrogallol

The effect of desoxycorticosterone on the adrenaline-induced relaxation of coronary arteries was studied in vitro, after a known inhibitor of COMT, pyrogallol. Relaxation induced by adrenaline was enhanced by desoxycorticosterone. Relaxation in response to adrenaline was increased by desoxycorticosterone. Pyrogallol potentiated the responses of coronary strips to adrenaline and also reduced or abolished the enhancing effects of desoxycorticosterone. It is concluded that desoxycorticosterone enhances the response of coronary smooth muscle to adrenaline by inhibiting an enzymatic pathway for the inactivation of catecholamines.     

Effect of blocking the neuronal and extraneuronal uptake of bioamines on the adrenosensitizing action of tricyclic antidepressants]

Tests conducted on isolated and denervated preparations of the rat seminal duct brought evidence that tricyclic antidepressants (melipromine, noverile and azaphen) when employed in low concentrations (1-10(-9) g/ml) produced an adrenosensitizing effect. Denervation with the subsequent block by desoxycorticosterone (1-10(-5) g/ml) of exteraneuronal amine uptake did not alter the position, shape and inclination of the "concentration-effect" noradrenaline curves received in the presence of noverile and cocaine. It is believed that there exists a predominance of the postsynaptic mechanism of the aminosensitizing action of tricyclic antidepressants on the smooth muscle organ.     

Immediate effects of desoxycorticosterone of vasomotor properties of noradrenaline and isoprenaline in rats]

In the rat, desoxycorticosterone (3 to 10 mg p. kg) does not modify the systemic vasoconstriction provoked by noradrenaline even in presence of an excess of sodium chloride. This mineralo-steroid reduces the vasodilatation induced by isoprenaline. Sodium chloride in excess potentiates this inhibition.     

Effect of mineralocorticoids on the Na, K-ATPase activity of the rat brain

The effect of desoxycorticosterone (DOC) on Na, K-ATPase activity was studied in vivo and in vitro on microsomal rat brain fractions. An hour after intramuscular administration of DOC a noticeable increase in the enzyme activity was observed. Preincubation of microsomal brain fractions with 5 and 15 mkg/ml of DOC caused a decrease in Na, K-ATPase activity, with the results evident 3-5 minutes after the addition of the hormone into the incubation medium. The idea of a two-phase hormonal effect is suggested. It is likely that desoxycorticosterone effect is realized both by the direct influence, on Na, K-ATPase of the brain plasma membrane and by the influence on the biosynthesis.     

Effects of triamcinolone and of desoxycorticosterone on renal function in sheep.

Sheep were treated for 10 or 17 days with triamcinolone acetonide, 0.1 mg/kg body weight/day, or desoxycorticosterone acetate, 0.1 mg/kg body weight/day, and the results of renal function studies during hydropenia and mannitol diuresis were compared with respective control periods. GFR was increased and urine concentration was unimpaired by treatment with triamcinolone. A consistent decrease in mannitol-induced Na excretion was observed, but with large variations in the mean change, in triamcinolone treatment periods. Treatment with desoxycorticosterone resulted in an increased GFR but with impaired urine concentrating capacity. The hypokalemia produced by desoxycorticosterone was not accompanied by an increase in urinary K excretion. During mannitol diuresis in sheep treated with desoxycorticosterone, there was a significant decrease in Na excretion when compared with control periods.     

The histological picture of the hypothalamus (the nucleus preopticus) and hypophysis in male Anguilla anguilla L. treated with hormones

Studies were conducted on the effect of human chorionic gonadotropin (HCG), testosterone and desoxycorticosterone acetate (DOCA) on the histological picture of the nucleus preopticus (NPO), hypophysis and gonads of male European eels. It was ascertained that none of the injections used changed the content of the Gomori-positive material within the NPO cells. HCG and testosterone injections altered the histological picture of the hypophysis and injections of HCG influenced the gonads by accelerating their maturity. The injections of DOCA did not change the histological picture of the hypophysis and gonads in male eels.     

Reduction of tissue noradrenaline content in the isolated perfused rat heart during ischemia: importance of monoamine oxidation.

The effect of ischemia on myocardial noradrenaline concentration and endogenous noradrenaline output was studied in the isolated perfused rat heart. Following a 15-min stabilization period, regional ischemia was produced by coronary artery ligation. After 60 min of ischemia, noradrenaline concentrations were significantly reduced in the interventricular septum and left ventricle but not in the right ventricle. The reduction in tissue noradrenaline concentration was not prevented when the 60-min ischemia was replaced by a 10-min ischemia followed by a 50-min perfusion. No modification in noradrenaline output was observed during a 60-min ischemia. In contrast, reperfusion was accompanied by a washout of noradrenaline in the coronary effluent, corresponding to only 2% of the amount lost by the tissue. The effect of monoamine oxidase inhibition during the whole ischemic period was studied by perfusing the preparation with pargyline starting 10 min before the artery ligation. Although the administration of pargyline did not alter the noradrenaline output, it did prevent a reduction in myocardial noradrenaline concentration. It was concluded that monoamine oxidase may contribute to the elimination of the noradrenaline lost by the cardiac tissue during ischemia.     

Urinary kallikrein in hypertensive animal models.

Urinary kallikrein excretion was studied in a number of animal models of hypertension. Kallikrein excretion was subnormal in spontaneously hypertensive rats as compared to Wistar/Kyoto rats and in rats made hypertensive by a clip on one renal artery. Kallikrein excretion was supranormal in rats made hypertensive by desoxycorticosterone and salt and in rats receiving desoxycorticosterone alone. It was subnormal after bilateral adrenalectomy. Kallikrein excretion increased in normotensive rats fed a low-sodium diet but was unchanged by a high-sodium diet. Thus, kallikrein excretion responded to changes in activity of sodium-retaining steroids and was not correlated with excretion of salt or water. In studies in dogs with stenosis of one renal artery kallikrein excretion was decreased on the stenoic side and the decrease correlated highly with the reduction in renal blood flow. While the role of the kallikrein-kinin system is still unclear the data indicate that the kidney may modify the initiation or maintenance of hypertension via this potent vasodilator system.     

Influence of pyridoxal-5'-phosphate on responses of isolated coronary arteries to noradrenaline, in the presence of pyrogallol

The effect of PLP on the noradrenaline-induced relaxation of coronary arteries was studied in vitro, after known inhibitor of COMT, Pyrogallol. Relaxation of response to noradrenaline were increased by PLP. Pyrogallol potentiated responses of coronary strips to noradrenaline and also reduced or abolished the enhancing effects of PLP. It is concluded that PLP enhances the response of coronary smooth muscle to noradrenaline by inhibiting a enzymatic pathway for the inactivation of catecolamines.     

Structural analysis of 21-hydroxypregn-4-ene-3,20-dione (deoxycorticosterone) derivative compounds. Part II: Proton NMR spectra

Complete analysis of the proton nuclear magnetic resonance spectrum of desoxycorticosterone (DOC) has been made using selective double irradiation, two-dimensional experiments, relaxation rate, and nuclear Overhauser effect measurements in order to specify the structure and conformation of products encountered during the preparation of the specific antigen DOC-bovine serum albumin (BSA). It has been shown that DOC has the normal P conformation with ring A half-chair, and ring B chair. This confirms results previously obtained by circular dichroism measurements.     

Effect of blood flow and muscle contraction on noradrenaline spillover in the canine gracilis muscle

Many authors have reported that, during exercise, noradrenaline spillover increases and fractional extraction decreases. It has been suggested that the increase in blood flow to active muscles may contribute to these effects. Muscle contraction also causes changes in many factors that may affect noradrenaline spillover and fractional extraction. In this experiment, we studied the effect of muscle contraction and blood flow on noradrenaline and adrenaline spillover and fractional extraction in the in situ canine gracilis muscle. The low intensity stimulation protocol enabled us to have muscle contractions without any effect on the local concentration of noradrenaline, as measured by microdialysis, and noradrenaline spillover. Fractional extraction of both noradrenaline and adrenaline was unaffected by increasing blood flow three and four times its resting value. In addition, noradrenaline spillover was increased by the higher blood flow, from 188 to 452 pg x min(-1) at rest and from 246 to 880 pg x min(-1) during stimulation. Stimulation of muscle contraction caused a significant increase in fractional extraction of noradrenaline and a nonsignificant increase in adrenaline extraction. In addition, an adrenaline spillover was observed in certain conditions. In light of our results, it seems that blood flow may not be the main factor decreasing fractional extraction of noradrenaline during exercise. However, blood flow could contribute to the increase in noradrenaline spillover observed in the active muscles during exercise.     

The influence of hypothyroidism on the adrenergic stimulation of glycogenolysis in perfused rat liver

The ability of noradrenaline (1 microM), phenylephrine (10 microM), and isoproterenol (1 microM) to stimulate glycogenolysis in euthyroid and hypothyroid perfused rat livers was investigated. It was found that hypothyroidism severely impaired alpha-receptor-mediated (noradrenaline, phenylephrine) glucose release. The initial Ca2+ efflux and K+ influx induced by these agonists in the euthyroid control group were almost totally absent in the hypothyroid group, while glycogen phosphorylase a activity in the hypothyroid rat livers was markedly lower than in the controls after infusing noradrenaline for 1 min. Diminished CA2+ efflux (and possibly diminished K+ influx) is likely to play a role in the large impairment in the action of noradrenaline or phenylephrine on glycogenolysis in the perfused hypothyroid rat liver. After prolonged stimulation (15 min) with noradrenaline, however, the phosphorylase a activity in the hypothyroid and euthyroid groups did not differ significantly. This was accompanied by Ca2+ influx in the hypothyroid livers, probably facilitated by a beta-adrenergic effect of noradrenaline in this group. Hypothyroidism potentiated the effect of isoproterenol on glycogenolysis. The glucose 6-phosphate content in the hypothyroid rat livers was markedly higher than in the euthyroid group after stimulation by noradrenaline or isoproterenol.     

On the mechanism by which antiadrenergic drugs increase survival of critical skin flaps

In order to asses the possibility that degeneration release of noradrenaline influences the survival of critical skin flaps, we studied the effect of various antiadrenergic drugs on skin-flap levels of noradrenaline, ATP, and cyclic AMP. Reserpine treatment depleted the skin flaps of noradrenaline and counteracted the fall in ATP and the cyclic AMP accumulation. Guanethidine had similar but less pronounced effects. Propranolol did not affect noradrenaline levels or depletion rate, but reduced the metabolic stimulation, as assessed by cyclic AMP levels in the flap. Phentolamine had no effect on basal noradrenaline levels, but tended to accelerate its disappearance and reduce lactate accumulation, a measure of hypoxia. All these drugs are known to increase skin-flap survival. It is suggested that they do so by, respectively, depleting the flap of its content of noradrenaline prior to operation or preventing the vasoconstriction and metabolic stimulation caused by released noradrenaline.     

Effects of carotid baroreceptor stimulation and renal denervation on the medullary concentration gradient in rat kidneys.

Unilateral stimulation of carotid baroreceptors in unanesthetized rats treated with desoxycorticosterone acetate caused highly significant decreases in solute content and osmolar concentration in the inner renal medulla. There was also a corresponding decrease in urine osmolality and a large increase in the excretion of sodium. In rats subjected to water diuresis, the changes in medullary tissue composition were similar but sodium excretion was very low, indicating that the natriuretic response was not a result of medullary "washout" per se. Renal denervation had no significant effect on medullary tissue composition and did not prevent the dissipation of the cortico-medullary concentration gradient following carotid baroreceptor stimulation. It is concluded that the changes in inner medullary composition are mediated by a humoral agent.     

Mechanism of the effect of dibasol on the contractile and electric activities of the smooth muscle of the portal vein

The effects of dibasol on spontaneous electrical and contractile activities as well as on the reactions evoked by hyperkalemic solution and noradrenaline were studied in smooth muscle of rabbit portal vein. It was shown that dibasol blocked the potential-operated influx Ca2+ into smooth muscle cells. The noninactivating calcium channels were found to be more sensitive to dibasol than inactivating ones. Significant part of the tonic contraction induced by noradrenaline was resistant to dibasol suggesting its weak effect on Ca2+ influx through calcium channels operated by alpha 1-adrenoceptors. It is supposed that vasodilative effect of dibasol is associated with blocking the influx Ca2+ through potential-operated noninactivating calcium channels into smooth muscle cells.     

Noradrenaline inhibition of transmitter efflux in a renal artery preparation and the presynaptic receptor theory.

The effect of noradrenaline on the stimulation-induced efflux of tritium in cattle renal arteries preincubated with [3H]noradrenaline was determined. Preparations were stimulated transmurally, with 300 shocks over a range of frequencies (1--15 Hz) in the presence and absence of noradrenaline (3 X 10(-6) M). The agonist inhibited the efflux most at 1 Hz but the extent of the inhibition did not vary with frequency between 2, 5, and 15 Hz. It is concluded that a negative feedback system, modulating neurotransmitter release, and increasingly activated by endogenously released noradrenaline as the frequency of stimulation rises, cannot account for the pattern of efflux inhibition induced by exogenous noradrenaline.     

The role of plasma noradrenaline in health and disease

This paper proposes that plasma noradrenaline plays a central role in the physiology and pathophysiology of the macrocirculation, the heart, veins and arteries. The proposal stems, in the final analysis, from the finding that noradrenaline dilates the canine lateral saphenous vein when it is released from its microcirculation, the vasa venarum. The concentration threshold of the effect is estimated to be at least eight times lower than the threshold of the constrictor effect of intralumenal noradrenaline. Combined with other evidence, the finding indicates that, contrary to opinion, plasma noradrenaline has an effective β₁-agonist hormonal effect on the macrocirculation, at normal concentrations. It also indicates that noradrenaline has a bi-polar effect. The reason it has that effect is that noradrenaline is a primary biological stimulus and like all primary stimuli investigated to date, it can be expected to have two cross-inhibitory components, commonly referred to as excitor and lateral inhibitory. When examined, neuronal noradrenaline shows the features characteristic of excitor components in general and plasma noradrenaline shows those characteristic of inhibitory components. The most significant of the latter is that inhibitory components are the most potent physiological modulators of excitor components. A striking example of that modulation effect occurs in smooth muscle contraction where muscles contracted by neuronal noradrenaline stimulation appear to be incapable of relaxing without stimulation by plasma noradrenaline-hence the proposition that vascular stenosis and cardiospasm are caused by a pathological loss of plasma noradrenaline stimulation. By triggering turbulence, cholesterol plaques increase the arterial microcirculatory flow and so increase the β₁-agonist effect of plasma noradrenaline. This paper proposes that this cholesterol driven increase in the microcirculatory effect of plasma noradrenaline is the cause of the arteriosclerotic syndrome, a proposition that is consistent with the success of beta-blockade in treating manifestations of the syndrome. The paper concludes by examining a variety of conditions, including dissecting aneurysms, dilator cardiac failure, angina, myocardial infarction, hypertension, eclampsia and cirrhosis and pointing out that all of them, like varicose veins, show evidence consistent with having been caused by a turbulence induced increase in a β₁-agonist stimulatory effect of microcirculatory plasma noradrenaline.     

Mechanisms of stomach secretion in dogs infused with histamine, carbacholine and pentagastrin

In chronic experiments on dogs with Basov 's stomach fistulas and pvc catheters implanted into the jugular vein the authors studied the effects of noradrenaline and adrenaline (30 mg/kg) on gastric secretion stimulated by pentagastrin. It was shown that the adrenagonists suppressed the pentagastrin-stimulated gastric secretion. The suppressing effect lasted 90 minutes after discontinuation of adrenaline or noradrenaline infusion.