Abstract
This study was designed to investigate the role of dopaminergic mechanisms in the control of aldosterone secretion in man. Five normal male subjects in metabolic balance at 150 meq sodium/d and 60 meq potassium/d constant intake received the specific dopamine antagonist, metoclopramide, 10 mg i.v. on 2 consecutive d. On the 1st d, the subjects received an infusion of 5% glucose solution (vehicle) from 60 min before to 60 min after metoclopramide administration; on the 2nd d, an infusion of dopamine 4 mug/kg per min was substituted for vehicle. Metoclopramide in the presence of vehicle increased plasma aldosterone concentrations from 2.4+/-1.1 to a maximum of 17.2+/-2.8 ng/100 ml (P < 0.01) and serum prolactin concentrations from 7.5+/-5.0 to a maximum of 82.2+/-8.7 ng/ml (P < 0.01). Dopamine 4 mug/kg per min did not alter basal plasma aldosterone concentrations, but blunted the aldosterone responses to metoclopramide significantly; in the presence of dopamine, plasma aldosterone concentrations increased from 3.1+/-0.5 to 6.2+/-1.4 ng/100 ml (P < 0.05) in response to metoclopramide. The incremental aldosterone responses to metoclopramide were significantly lower in the presence of dopamine than with vehicle. Dopamine 4 mug/kg per min suppressed basal prolactin to <3 ng/ml and inhibited the prolactin responses to metoclopramide; serum prolactin concentrations increased to a maximum of 8.5+/-2.3 ng/ml with metoclopramide in the presence of dopamine. The subjects were studied in the same manner except that dopamine 2 mug/kg per min was administered instead of the 4-mug/kg per min dose. Dopamine 2 mug/kg per min attenuated the aldosterone and prolactin responses to metoclopramide, but was less effective than the 4-mug/kg per min dose of dopamine. Metoclopramide 10 mg i.v. was administered to five additional subjects after pretreatment with the dopamine agonist, bromocriptine, 2.5 mg or placebo at 6 p.m., midnight, and 6 a.m. before study. Bromocriptine suppressed basal serum prolactin levels and completely inhibited the prolactin responses to metoclopramide. In contrast, bromocriptine did not alter basal plasma aldosterone concentrations or the aldosterone responses to metoclopramide. Plasma renin activity, plasma cortisol, and serum potassium concentrations were unchanged by metoclopramide, dopamine, or bromocriptine. The results of this study suggest that the aldosterone response to metoclopramide is mediated by metoclopramide's antagonist activity at the dopamine receptor level. The results further suggest dissociation of the responses to the dopamine agonists, dopamine and bromocriptine, and indicate that a new type of dopamine receptor may inhibit aldosterone secretion.
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