Mechanism of Suppression of Vasopressin during Alpha-Adrenergic Stimulation with Norepinephrine

Berl, Tomás; Cadnapaphornchai, Pravit; Harbottle, Judith A.; Schrier, Robert W.

doi:10.1172/jci107541

Cited by 77 publications

(26 citation statements)

References 20 publications

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“…However, the latter authors further ascribed this effect of noradrenaline to altering autonomic baroreceptor tone (BERL et a!.,1974). This cannot be the major cause of the inhibition of vasopressin secretion in pressor amounts by noradrenaline in the rat, because it was still present after sinoaortic denervation.…”

Section: Discussionmentioning

confidence: 99%

Conditions for secretion of vasopressin in pressor amounts in water-replete rats.

Iriuchijima

1983

Jpn.J.Physiol

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Conditions for secretion of pressor amounts of vasopressin were sought in conscious, water-replete rats. The characteristic lowering of arterial pressure on injection of a vasopressin antagonist was used to detect vasopressin secretion in pressor amounts. The absence or marked abatement of both baroreceptor impulses and adrenomedullary secretion were found necessary for secretion of vasopressin in pressor amounts : the vasopressin antagonist lowered arterial pressure in rats with sinoaortic denervation and ganglion blockade or adrenalectomy. Besides baroreceptor activity and adrenomedullary secretion, anesthetics were also found inhibitory on vasopressin release in pressor amounts. The adrenomedullary hormone signaling the presence of adrenomedullary activity to the vasopressin releasing mechanism was identified as noradrenaline and not adrenaline. It is suggested that the vasopressin pressor mechanism is recruited to sustain arterial pressure when the sympathoadrenal system fails.

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Section: Discussionmentioning

confidence: 99%

Conditions for secretion of vasopressin in pressor amounts in water-replete rats.

Iriuchijima

1983

Jpn.J.Physiol

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“…In addition to nicotine (25), these stimuli include systemic alpha (30) and beta (31) adrenergic stimulation, acute constriction of the thoracic inferior vena cava (32), left atrial distention (33), atrial tachycardia (34), and hypoxia (35). From these results has emerged the hypothesis that the nonosmotic release of vasopressin may have evolved as an integral part of the alarm reaction (36).…”

Section: Plasma Vasopressin In Glucocorticoid Deficiencymentioning

confidence: 99%

Role of Plasma Vasopressin in Impaired Water Excretion of Glucocorticoid Deficiency

Boykin¹,

deTORRENTE²,

Erickson³

et al. 1978

J. Clin. Invest.

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113

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A B S T R A C T In the present study, the effect of selective glucocorticoid deficiency on renal water excretion was investigated in conscious, trained, adrenalectomized dogs. The animals were studied before and after a water load while on replacement therapy of desoxycorticosterone acetate, 5 mg/day, and dexamethasone, 0.8 mg/day (group I), and while off dexamethasone for 5-9 days (group II). Before the water load the weight, inulin space, cardiac output, blood pressure, glomerular filtration rate, renal blood flow, plasma osmolality, and plasma antidiuretic hormone measured by radioimmunoassay were similar in both groups I and II. However, after a 40 ml/kg water load a marked impairment in renal water excretion in the glucocorticoid deficient dogs became apparent. Maximal free water clearance was -0.046±0.16 vs. 6.51±0.72 ml/min (P < 0.001) and minimal urinary osmolality was 425±56 vs. 82±3.5 mosmol/kg H20 (P < 0.001) in group II as compared to group I. Plasma antidiuretic hormone was maximally suppressed during the water load in group I to 0.34±0.08 pg/ml but remained elevated at 9.18±1.79 pg/ml (P <0.005) in group II. This nonsuppressibility of plasma antidiuretic hormone during water loading in group II was associated with a significant tachycardia of 145±6 vs. 87±6 beats/min (P < 0.001) in group I and a significantly lower stroke volume of 27±0 vs. 59±0.5 ml/beat (P < 0.001). In conclusion, our results implicate a persistent secretion of antidiuretic hormone as an important factor in the impaired water excretion of glucocorticoid deficiency. A deleterious effect of glucocorticoid deficiency on cardiac function was observed and this hemodynamic alteration could be involved in initiating a nonosmolar, baroreceptormediated release of vasopressin.

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“…Food was withheld 18 h before the experiment and all animals had free access to water. The animals were anesthetized with intravenous pentobarbital (20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30) mg/kg), intubated, and ventilated with room air with a Harvard respirator (Harvard Apparatus Co., Inc., Millis, Mass.). Ventilator tidal volume was set at 15-20 ml/kg body weight, and ventilator rate was adjusted to maintain normal alveolar ventilation (Pco2 of 25-35 mm Hg).…”

Section: Introductionmentioning

confidence: 99%

“…On the morning of the experiment, baroreceptor denervation and bilateral cervical vagotomy were carried out as previously described (27). In these animals, completeness of baroreceptor denervation was assessed by abolition of the pressor response to occlusion of each common carotid artery below the level of the carotid sinus that was present before denervation.…”

Section: Introductionmentioning

confidence: 99%

Mechanism of Effect of Hypoxia on Renal Water Excretion

Anderson¹,

Pluss²,

Berns³

et al. 1978

J. Clin. Invest.

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104

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A B S T R A C T The effect of lowering the pressure of oxygen from 80 to 34 mm Hg was examined in anesthetized dogs that were undergoing a water diuresis. This degree of hypoxia was associated with an antidiuresis as urine osmolality (Uosm) increased from 107 to 316 mosmol/kg H20 (P < 0.001) and plasma arginine vasopressin increased from 0.06 to 7.5 pLU/ml, (P < 0.05).However, hypoxia was not associated with significant changes in cardiac output (CO, from 4.2 to 4.7 liters/ min), mean arterial pressure (MAP, from 143 to 149 mm Hg), glomerular filtration rate (GFR, from 46 to 42 ml/min), solute excretion rate (SV, from 302 to 297 mosmol/min), or filtration fraction (from 0.26 to 0.27, NS). Hypoxia was associated with an increase in renal vascular resistance (from 0.49 to 0.58 mm Hg/ml per min, P < 0.01). The magnitude of hypoxia-induced antidiuresis was the same in innervated kidneys and denervated kidneys. To further examine the role of vasopressin in this antidiuresis, hypoxia was induced in hypophysectomized animals. The effect of hypoxia on CO, MAP, GFR, SV, and renal blood flow in hypophysectomized animals was the same as in intact animals. In contrast to intact animals, however, hypoxia did not induce a significant antidiuresis in hypophysectomized animals (Uosm from 72 to 82 mosmol/kg H2O). To delineate the afferent pathway for hypoxiastimulated vasopressin release, hypoxia was induced in dogs with either chemo-or baroreceptor denervation. The effect of hypoxia on CO, MAP, GFR, SV, and renal blood flow in the denervated animals was the same as in nondenervated animals. Hypoxia resulted in an antidiuresis in chemoreceptor (Uosm from 113 to 357 mosmol/kg H20, P < 0.001) but not in baroreceptor (Uosm from 116 to 138 mosmol/kg H20, NS) denervated animals. To determine if hypoxia alters renal response to vasopressin, exogenous vasopressin was adminisDr.

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Mechanism of Suppression of Vasopressin during Alpha-Adrenergic Stimulation with Norepinephrine

Cited by 77 publications

References 20 publications

Conditions for secretion of vasopressin in pressor amounts in water-replete rats.

Conditions for secretion of vasopressin in pressor amounts in water-replete rats.

Role of Plasma Vasopressin in Impaired Water Excretion of Glucocorticoid Deficiency

Mechanism of Effect of Hypoxia on Renal Water Excretion

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