Plasma aldosterone response to metoclopramide is unmodified by hyperprolactinemia

It has been previously demonstrated that patients with hyperprolactinemia have impaired PRL response to dopaminergic blockade and increased TSH response. Since inhibitory dopaminergic modulation of aldosterone is well established, we have examined whether prolactinoma patients have an altered aldosterone response to dopaminergic blockade. To investigate this possibility we compared the plasma PRL, TSH and aldosterone responses to the dopamine (DA) antagonist metoclopramide (MCP; 10 mg i.v.) in 10 women with prolactinomas and 7 healthy female controls. Basal PRL levels in prolactinoma patients were elevated and showed a blunted rise following MCP. Although basal TSH levels were similar in the 2 groups of subjects, they significantly increased (p = 0.017) in prolactinoma patients while in contrast they did not significantly change in control subjects. Basal supine plasma aldosterone was similar in patients with prolactinomas (0.23 +/- 0.03 nmol/l) and in healthy subjects (0.25 +/- 0.04 nmol/l) and the increased aldosterone concentrations from 15 to 120 min following MCP were not significantly different in prolactinoma patients and in control subjects. It is concluded that in patients with prolactinomas, the alteration in the dopaminergic regulation is specifically related to the lactotroph.     

Evidence for increased endogenous dopaminergic inhibition of aldosterone secretion in prolactinoma

Aldosterone responsiveness to consecutive i.v. injections of metoclopramide 1 mg, 2.5 mg and 10 mg was studied in 8 patients with prolactinoma and normally preserved adrenal function and in 14 healthy volunteers. In the patients, aldosterone response to metoclopramide 1 mg was blunted. After metoclopramide 10 mg, aldosterone rose to the same levels in patients and volunteers. In the patients, however, percentage rise of aldosterone was enhanced, since the appropriate base line concentration of aldosterone was decreased. Thus, there is evidence for increased endogenous dopaminergic inhibition of aldosterone secretion in prolactinoma.     

Absent aldosterone response to metoclopramide in patients with high spinal cord transection: evidence that metoclopramide stimulates aldosterone secretion through central pathways

This study evaluates dopaminergic regulation of aldosterone secretion in 6 patients with high spinal cord transections. Administration of the dopamine antagonist metoclopramide resulted in a marked rise in plasma aldosterone and 18-hydroxycorticosterone levels in 12 normal individuals, but no change in plasma levels of these zona glomerulosa corticosteroid products in spinal cord patients. Spinal cord transected patients also did not have the rise in plasma renin activity that was observed in normals following metoclopramide administration. Basal levels of aldosterone, 18 hydroxycorticosterone, corticosterone and renin activity as well as the aldosterone responses to graded dose infusion of adrenocorticotropin were similar in the spinal cord patients and the normals. These data suggest that dopaminergic regulation of adrenal zona glomerulosa corticosteroid and renal renin secretion is absent in patients with high spinal cord transections, suggesting that intact neural pathways from the central nervous system are necessary for metoclopramide stimulation of aldosterone and renin secretion in men. Since basal plasma aldosterone levels were normal in spinal cord transected patients, it appears that the absence of dopaminergic control does not result in elevated secretion.     

Dopamine control of aldosterone secretion in end-stage renal failure

The role of the tonic inhibitory effect of dopamine on aldosterone secretion has been investigated in 10 patients with chronic renal failure (CRF) on hemodialysis, in 8 normotensive renal transplant recipients (Tx) with normal renal function and in 8 normotensive volunteers (NV). The following tests were performed: the response of plasma aldosterone (PA) to metoclopramide administration; the response of plasma prolactin (PRL) to TRH administration, and the changes induced by Lisuride (a dopaminergic agonist, on the values of PA and PRL). The basal values of PA and PRL were higher in CRF than in NV and Tx. The inverse was true for plasma renin activity (PRA) values. The response of PA and PRL to metoclopramide showed blunted increases in CRF when compared to NV, in the absence of changes of PRA, cortisol and potassium. After TRH administration, PRL increase in CRF was also inferior. Lisuride induced a decrease of both PA and PRL both in CRF and NV. In Tx, basal values of PA and PRL were similar to NV. Nevertheless, the response to metoclopramide and TRH were partially blunted when compared to that of NV. These results point to the existence of a deranged dopaminergic regulation of aldosterone secretion in end-stage renal failure patients. The alterations are partially corrected by a well-functioning kidney graft.     

Effect of metoclopramide-induced prolactin on aldosterone secretion in normal subjects

We investigated the role of prolactin (PRL) on modurating the secretion of aldosterone in normal male subjects. Metoclopramide (5mg) which causes a significant rise of PRL was given by intravenous injection. The peak of PRL level at 30 min. after i.v. injection of metoclopramide (20.0 ± 1.6 ng/ml, mean ± S.E.) was significantly higher than the basal level (6.4 ± 2.1 ng/ml, P < 0.01), but plasma aldosterone, serum sodium, potassium and plasma renin activity did not change significantly throughout the period of the study. Cortisol levels, however, reduced significantly after 30 min. and remained significantly low, probably because of diurnal variation. Present results suggest that PRL might at least not play a physiological role on regulating the secretion of aldosterone in man.     

Dopaminergic control of aldosterone secretion in hypertensive patients chronically treated with an angiotensin converting enzyme inhibitor

To investigate whether dopamine plays a role in the regulation of aldosterone secretion during long-term blockade of the renin-angiotensin system, we studied the effect of metoclopramide, a competitive antagonist of dopamine, in 6 patients with essential hypertension chronically treated with the angiotensin converting enzyme inhibitor enalapril. All but one of these patients received a diuretic in addition to enalapril. Six hours after the daily morning dose of enalapril (10-40 mg p.o.) a 10 mg bolus dose of metoclopramide was injected intravenously. In one patient a hypotensive episode developed following metoclopramide administration. In the 5 other patients plasma aldosterone significantly rose within 30 min after metoclopramide from 51 +/- 8.7 to 128.2 +/- 29.2 pg/ml. This metoclopramide-induced release of aldosterone occurred in the absence of concomitant changes in circulating angiotensin 11, potassium and ACTH levels. Metoclopramide given during chronic blockade of the renin-angiotensin system caused anxiety and agitation in 2 patients. The increase in plasma aldosterone following competitive dopamine blockade in the face of chronic angiotensin converting enzyme inhibition, unchanged plasma potassium and ACTH levels strongly suggests that in hypertensive patients, dopamine exerts a direct inhibitory effect on aldosterone secretion.     

Glucocorticoid suppression enhances the 18-hydroxycorticosterone and aldosterone response to metoclopramide in man

18-Hydroxycorticosterone (18-OHB) is a precursor of aldosterone and is the only corticosteroid, other than aldosterone, that is synthesized predominantly in the zona glomerulosa. Administration of the dopamine antagonist, metoclopramide results in parallel rises in plasma 18-OHB and aldosterone levels without affecting the plasma levels of other aldosterone precursors. However, 18-OHB is a product of the zona fasciculata as well as the glomerulosa. Thus, it is possible that metoclopramide may stimulate zona fasciculata secretion of 18-OHB. In order to more selectively examine dopaminergic regulation of zona glomerulosa secretion of 18-OHB we have examined the effect of glucocorticoid suppression of the fasciculata on the 18-OHB and aldosterone responses to metoclopramide, 10 mg iv in 6 normal volunteers. Dexamethasone, 2 mg every 6 hours for 5 days, suppressed basal levels of cortisol, corticosterone, 18-OHB and aldosterone. Dexamethasone treatment had no effect on basal levels of PRA or PRA responses to metoclopramide. The 18-OHB and aldosterone responses to metoclopramide were enhanced (p less than .05) by dexamethasone suppression. The results suggest that dopaminergic mechanisms selectively suppress glomerulosa production of 18-OHB. Endogenous ACTH may inhibit zona glomerulosa production of 18-OHB and aldosterone in response to the dopamine antagonist, metoclopramide.     

Effect of L-dopa and bilateral nephrectomy on the aldosterone response to metoclopramide

The dopaminergic antagonist, metoclopramide (MCP) causes an increase in plasma aldosterone (PA) by a processnot well delineated. To investigate the mechanism of action of metoclopramide (MCP), studies were performed in rats after pre-treatment with L-dihydroxy-phenylalanine (L-dopa) and after bilateral nephrectomy. Intra-arterial MCP (200 μg/kg) resulted in a significant elevation in PA and prolactin (PRL) at 5 min and plasma renin activity (PRA) at 10 min without altering serum potassium levels. Pre-administration of L-dopa (30 mg/kg) delayed and markedly blunted PA, PRL and PRA resonses to MCP. In 7 rats, studied 30 hours after bilateral nephrectomy, the PRA was measurable (2.5 ± 0.4 ng/ml h^?1) but displayed no response to MCP. In contrast, the PA and PRL responses to MCP were not significantly affected. L-dopa induced suppression of PRA and PA was prevented by pre-administration of MCP. These results suggest that dopaminergic modulation of PA secretion occurs independently of the renin-angiotensin system.     

Mechanism of the central effects of dopamine and metoclopramide on aldosterone regulation in the rat

To investigate the mechanism of the central action of dopamine and its antagonist, metoclopramide, on the regulation of aldosterone, studies were performed in 54 conscious rats with and without bilateral nephrectomy. In normal and sham-operated rats, intracerebroventricular injection of dopamine resulted in a significant suppression of plasma renin activity and plasma aldosterone at 30 min, and intracerebroventricular injection of metoclopramide resulted in a significant elevation of plasma renin activity and plasma aldosterone at 30 min without altering the plasma corticosterone and potassium levels. In bilaterally nephrectomized rats, the plasma renin activity was significantly reduced and it did not respond to dopamine or metoclopramide. In these rats, intracerebroventricular injection of metoclopramide exerted no effect on the plasma aldosterone, but intracerebroventricular injection of dopamine increased the plasma aldosterone slightly. However, this increase was not statistically significant. These findings suggest that the dopaminergic system in the brain is involved in the regulation of aldosterone secretion, mainly with changes in the peripheral renin-angiotensin axis in rats.     

Prolactin after baclofen in healthy subjects and prolactinoma patients

Serum prolactin (PRL) levels in basal conditions (two samples) and 30, 60, 90, 120, 150 e 180 minutes after oral administration of baclofen (20 mg) were evaluated in 6 healthy subjects and in 10 patients with prolactinoma. The effect of baclofen (20 mg by mouth) on the PRL secretion cimetidine (400 mg i.v.) or domperidone (20 mg i.v.) induced were evaluated in 9 healthy women by administration of baclofen 60 minutes before cimetidine or domperidone. Baclofen was unable to significantly rise serum PRL levels in healthy subjects and in patients affected by prolactinoma and furthermore did not interfere with PRL rise domperidone induced. On the contrary baclofen decreased PRL rise cimetidine induced. It was concluded that: in basal condition, GABAb receptor don't play an obvious role in modulation of PRL secretion; when H2 istaminergic inhibition on PRL secretion is blocked (at an hypothalamic site), a GABA inhibition, b receptor mediated, on PRL secretion became more clear; the domperidone blockade of hypophysial dopaminergic receptors suggests that GABAb modulation of prolactin secretion don't obtain itself by dopaminergic pathways.     

Effect of bromocriptine on the control of plasma aldosterone diurnal variation in normal supine man.

In order to investigate the role of prolactin in the control of the circadian rhythm of plasma aldosterone (PA), plasma renin activity (PRA), cortisol (PC), aldosterone and prolactin (PRL) levels were determined in samples at 4-hour intervals from 5 normal supine men over a period of 24 h under basal conditions and subsequently over a period of 24 h during suppression of prolactin release by bromocriptine (CB-154). After suppression of prolactin, statistically signific1nt circadian rhythms in PC and PA have been detected with a moderate decrease of PA concentration, while the PC level remained unalterated. PRA rhythmicity persisted with a significant shift of acrophase and remarkable reduction of plasma levels. Moreover, during CB administration a significant correlation was obtained between PA and PC, while no correlation was detected between PA and PRA. These data are consistent with the following concepts: (a) the prolactin does not play a significant role in the regulation of circadian rhythm and concentration of plasma aldosterone in normal supine men, and (b) bromocriptine induces a remarkable reduction of PRA and a variable decrease in plasma aldosterone, but it does not influence the secretion of cortisol in normal subjects.     

Effect of prostaglandin E1 on renin and aldosterone in hypertensive patients.

The effect of prostaglandin E1 (PGE1) on plasma renin activity (PRA) and plasma aldosterone concentration (PAC) was studied in the hypertensive subjects treated with or without 75 mg indomethacin or 60 mg propranolol for a week. Subsequent to the treatment with indomethacin for a week, PRA and PAC levels were decreased as compared to the control, without changes in the blood pressure and heart rate. During the infusion of PGE1, the blood pressure was decreased and the pulse rate was increased. PRA and PAC levels were also elevated. These changes of parameters were not different between the control and the indomethacin-treated subjects. PRA and PAC were suppressed after the treatment with propranolol. With the infusion of PGE1, the level of PRA was not significantly elevated, while, PAC was significantly increased by the infusion of 100 ng/Kg/min of PGE1. During the infusion of PGE1, the blood pressure was decreased while the pulse rate was increased in the subjects treated with propranolol. However, the elevation of the pulse rate was less remarkable than the control. These data indicate that PGE1 have important roles in the regulation of the release of renin and aldosterone. These findings also suggest that PGE1 may act to stimulate the secretion of aldosterone in man.     

Clinical use of metoclopramide test in the diagnosis of women with hyperprolactinemia

14 women with elevated prolactin (PRL) serum levels (greater than 25 ng/ml) were given 2.5 mg of metoclopramide, by bolus intravenous injection, to evaluate its diagnosic potential as a stimulus for PRL release. Following metoclopramide injection there was a prompt increase in serum PRL in normal subjects and in patients with moderate PRL elevations associated with galactorrhea-oligomenorrhea. The women with amenorrhea-galactorrhea regardless of the presence of absence of a pituitary tumor, showed a blunted response. Metoclopramide failed to induce TSH secretion in all cases. In conclusion: the use of the metoclopramide test provides no additional clinical information to that furnished by the basal serum PRL concentration for the hyperprolactinemic patient.     

Effect of verapamil on the aldosterone-stimulating properties of metoclopramide: in vitro and in vivo studies

The role of calcium in the regulation of aldosterone secretion has been recently clarified. Angiotensin II and potassium stimulate aldosterone secretion through a calcium-entry dependent mechanism, while ACTH action is both calcium and cyclic AMP dependent. To establish whether also the so-called aldosterone dopaminergic regulatory system is calcium-dependent we have studied, in vitro and in vivo, the effect of verapamil, a calcium entry blocker agent, on the aldosterone-stimulating properties of the antidopaminergic drug, metoclopramide. In the rat adrenal cells perfusion system, verapamil blocked both angiotensin II and metoclopramide-stimulated aldosterone. This effect on metoclopramide action seems to be present also in vivo in normal subjects: in fact aldosterone response was slightly but significantly reduced after pretreatment with verapamil. In conclusion the results suggest that also the dopaminergic system could regulate aldosterone secretion through calcium-mediated mechanisms.     

Interactions of steroids with prolactin secretion in vitro

Estrogens prevent or diminish the sensitivity to dopamine of prolactin (PRL) secretion by cultured rat pituitary cells. Cultured tumor cells prepared from a transplantable rat PRL-secreting tumor were insensitive to dopamine and bromocriptine, while the anti-estrogen tamoxifen restored this sensitivity. Cultured normal human pituitary cells were shown to be more sensitive to dopamine, if they were preincubated with estradiol, while cultured human prolactinoma cells became insensitive to bromocriptine after they were exposed to estrogens. This sensitivity was restored, however, by tamoxifen. These results point to an important species difference between primates and rodents with regard to the normal regulation of PRL secretion.     

Zinc supplementation does not inhibit basal and metoclopramide-stimulated prolactinemia secretion in healthy men.

Dopamine (DA) and zinc (Zn++) share common mechanisms in their inhibition of prolactin (PRL) secretion. Both substances are present in the same brain areas, where Zn++ is released together with DA, suggesting a modulatory effect of Zn++ on dopaminergic receptors. The aim of the present study was to evaluate the effect of Zn++ supplementation on basal and PRL secretion stimulated by metoclopramide (MCP), a dopaminergic antagonist. Seven healthy men were evaluated in controlled study, where MCP (5 mg) was given intravenously, before and after 3 months of oral Zn++ (25 mg) administration. Our results indicate that chronic Zn++ administration does not change basal or MCP-stimulated plasma PRL secretion suggesting that, in humans, Zn++ does not interfere on PRL secretion mediated through dopaminergic receptors.     

Enhanced response of plasma prolactin to metoclopramide during chronic converting enzyme inhibition

The effect of chronic converting enzyme inhibition with enalapril on the PRA, PRL and plasma aldosterone responses to metoclopramide was studied in 10 patients with mild to moderate essential hypertension. Enalapril reduced supine blood pressure and increased heart rate significantly. PRA and urinary sodium excretion rose significantly. PRA levels did not change after metoclopramide neither during placebo nor during enalapril. The aldosterone response to metoclopramide was not altered by enalapril, indicating that this response is independent of the renin-angiotensin system. The PRL response to metoclopramide was considerably enhanced after 4 weeks of treatment with enalapril. It is proposed that enalapril, by decreasing the formation of angiotensin II, increases the prolactin reserve.     

Abnormal dopamine sensitivity in some human prolactinomas

In most of human prolactin (PRL)-secreting adenomas, dopamine and dopamine agonists normally suppress the excessive PRL secretion. Nevertheless, a subpopulation of such patients presents a relative insensitivity to the ergot derivative bromocriptine. Six patients with a macroadenoma (n = 5) or microadenoma (n = 1) were considered resistant to bromocriptine which, at a daily dose of 15-60 mg, did not normalize high plasma PRL levels. Culture studies of these adenoma cells showed that: (1) 10(-8) M bromocriptine produced a 32 +/- 16% inhibition of PRL release versus 65 +/- 12% obtained in the same conditions with normal human pituitary cells; (2) sulpiride (10(-6) M) reversed the inhibitory effects of bromocriptine, and (3) the bacterial endotoxins, cholera toxin (10(-11) M) and pertussis toxin (250 ng/ml), respectively, produced a 45-500% increase and a total abolition of bromocriptine-induced PRL inhibition. These observations and recent data of the literature allow to discuss the possibility of receptor or postreceptor defects in such tumors.     

Responses of growth hormone to metoclopramide in normal women and amenorrheic women with or without hyperprolactinemia

Response of growth hormone (GH) release to metoclopramide (MCP), a dopamine antagonist, was evaluated in normal women, hyperprolactinemic-amenorrheic patients with pituitary microadenoma and normoprolactinemic-amenorrheic patients. Mean basal concentrations of serum GH and prolactin (PRL) in amenorrheic patients were not significantly different from those in normal women except PRL concentrations in hyperprolactinemic patients. Serum GH concentrations significantly increased after MCP administration in normal women and normoprolactinemic-amenorrheic patients, but not in hyperprolactinemic patients. Dopamine causes modest and transient GH secretion in some subjects. Therefore MCP is not likely to stimulate GH secretion through its effect as a dopamine antagonist, and the mechanism of action of MCP on GH secretion is not known. Although the cause of the absence of GH response to MCP in hyperprolactinemic patients is unclear, it may be related to the increased hypothalamic dopaminergic tone which is operative in such patients or it may reflect a direct action of PRL on hypothalamic-pituitary GH regulation.     

Metoclopramide fails to stimulate aldosterone secretion and inhibits serotonin-mediated aldosterone secretion in the rat

The acute and chronic effects of metoclopramide on aldosterone secretion in the rat model were examined. Metoclopramide 50 micrograms iv in dexamethasone-treated rats did not increase plasma aldosterone concentration. Chronic infusion of metoclopramide (72 micrograms/hr) over 5 days also did not show any increase in the plasma or urinary aldosterone concentration when compared with control rats. Metoclopramide in vitro showed no effect on aldosterone secretion from rat adrenal capsular cells but it inhibited serotonin-mediated aldosterone secretion from the same cells significantly.