Involvement of dopamine receptor subtypes in dopaminergic modulation of aldosterone secretion in rats

Gastrin and D1 dopamine receptor interact to induce natriuresis and diuresis

Oral NaCl produces a greater natriuresis and diuresis than the intravenous infusion of the same amount of NaCl. Gastrin is the major gastrointestinal hormone taken up by renal proximal tubule (RPT) cells. We hypothesized that renal gastrin and dopamine receptors interact to synergistically increase sodium excretion, an impaired interaction of which may be involved in the pathogenesis of hypertension. In Wistar-Kyoto rats, infusion of gastrin induced natriuresis and diuresis, which was abrogated in the presence of a gastrin (cholecystokinin B receptor [CCKBR]; CI-988) or a D1-like receptor antagonist (SCH23390). Similarly, the natriuretic and diuretic effects of fenoldopam, a D1-like receptor agonist, were blocked by SCH23390, as well as by CI-988. However, the natriuretic effects of gastrin and fenoldopam were not observed in spontaneously hypertensive rats. The gastrin/D1-like receptor interaction was also confirmed in RPT cells. In RPT cells from Wistar-Kyoto but not spontaneously hypertensive rats, stimulation of either D1-like receptor or gastrin receptor inhibited Na(+)-K(+)-ATPase activity, an effect that was blocked in the presence of SCH23390 or CI-988. In RPT cells from Wistar-Kyoto and spontaneously hypertensive rats, CCKBR and D1 receptor coimmunoprecipitated, which was increased after stimulation of either D1 receptor or CCKBR in RPT cells from Wistar-Kyoto rats; stimulation of one receptor increased the RPT cell membrane expression of the other receptor, effects that were not observed in spontaneously hypertensive rats. These data suggest that there is a synergism between CCKBR and D1-like receptors to increase sodium excretion. An aberrant interaction between the renal CCK BR and D1-like receptors (eg, D1 receptor) may play a role in the pathogenesis of hypertension.

Comparative Effects of Dopaminergic Agonists on Cardiovascular, Renal, and Renin-Angiotensin Systems in Hypertensive Patients

The role of dopaminergic receptors on renal function has been extensively studied. Recently dopaminergic receptor has been classified in two subtypes D1 and D2, which seem to have different modulatory function. However, the role of dopaminergic receptors on cardiovascular function and more specifically the potential role of dopaminergic agonists as antihypertensive agents has not yet been clarified. Nine outpatients with mild and moderate hypertension were studied in the Cardiology Service of Vargas Hospital with a D1 agonist, piribedil, at 50-100 mg/day, orally, for 8 weeks, and with a D2 agonist, bromocriptine, at 2.5 - 5 mg/day, orally, for an another 8 weeks by using a placebo comparative crossover design. Piribedil reduced blood pressure with a modest increase in heart rate, plasma renin activity, and of plasma aldosterone, and an important increment of renal function. Bromocriptine reduced blood pressure with a decrease in heart rate and plasma aldosterone without altering renal function. There was no orthostatic hypotension with either agent. The authors conclude that activation of dopaminergic D1 receptor induces a vasodilatory and antihypertensive effect with a reflex increase in sympathetic tone, whereas activation of dopaminergic D2 receptor induces a decrease in sympathetic tone, probably due to a decrease in norepinephrine release at adrenergic endings. The potential effect of these compounds as antihypertensive agents is of great interest because blood pressure reduction can be induced by a new mechanism, i.e. activation of dopaminergic receptors which results in a decrease of the renin angiotensin system or a vasodilatory action.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of metoclopramide and metoclopramide/dopamine on blood pressure and insulin release in normotensive, hypertensive, and type 2 diabetic subjects

The objective is to determine cardiovascular and insulin release effects under metoclopramide (MTC) and dopamine (DA) infusion by using an acute comparative design with the intravenous infusion of both drugs. We evaluated 15 normal (normotensive and normoglycemic) subjects, 13 hypertensive, and 15 type 2 diabetic subjects. Subjects were submitted to an experimental design in which we first gave them a 0.9% saline solution for 30 minutes, and then administered MTC at 7.5 microg kg min through an intravenous infusion during a period of 30 minutes. Although subjects were receiving MTC, we added an intravenous infusion of DA at 1-3 microg kg min during 30 minutes. Blood pressure, heart rate, serum lipid profile, and insulin levels were measured. Sympathetic reactivity by the cold pressor test was also measured. In normotensive subjects, there was a systolic blood pressure and heart rate increase during MTC plus DA infusion. In subjects with diabetes mellitus there was a heart rate increase without changes in blood pressure during the MTC plus DA infusion period. In hypertensive subjects, MTC induced a significant decrease of systolic and diastolic blood pressure. During MTC plus DA period there was an increase of heart rate but no significant changes in blood pressure. During cold pressor test in both diabetic and hypertensive subjects, there were significant increases of both blood pressure and heart rate. Insulin serum levels increased in normotensive and hypertensive subjects but were attenuated in subjects with diabetes mellitus. We conclude that there is a pharmacologic interaction between MTC and DA, that the pressor effects of DA are due to activation to beta and alpha adrenergic receptors, and that the cardiovascular effects of DA in type 2 diabetic subjects are attenuated by a probable defect in sympathetic system and to endothelial dysfunction.

Physiologic Impact of Low-Dose Dopamine on Renal Function in the Early Post Renal Transplant Period

BACKGROUND

Low-dose dopamine (LDD) (< or =5.0 microg/kg/min) is often used in the early postrenal transplant period for its perceived improvements in renal function parameters. However, there is little published evidence to support its use. The aim of this study was to evaluate the effects of LDD on the physiologic parameters of the transplanted kidney.

METHODS

With local ethics approval, 20 consecutive adult patients (age range, 27-74 years), who underwent cadaveric renal transplantation with cyclosporine immunosuppression, were randomized into two study groups, each with 10 patients. The study period was over 9 hrs on the first postoperative day. This 9-hr block was divided into three 3-hr periods. Patient group 1 received a dopamine infusion over the second 3-hr period only, and patient group 2 received a dopamine infusion over both the first and third 3-hr periods. During these periods, urine flow rate (UFR), effective renal plasma flow (ERPF), creatinine clearance (CC), and total urinary sodium excretion rate (tUNa) were measured.

RESULTS

In both groups, there were significant (P<0.05, Wilcoxon rank sum test) increases in ERPF, UFR, CC, and tUNa during LDD infusion periods compared with periods of no LDD infusion. No changes in heart rate or mean arterial blood pressure were seen with LDD administration.

CONCLUSIONS

LDD significantly increases ERPF, UFR, CC, and tUNa in the transplanted allograft kidney treated with cyclosporine immunosuppression in the early posttransplant period.

Dissociation of renal vasodilator and natriuretic effects of dopamine during sulpiride infusion in normal man

The effect of sulpiride on dopamine-induced changes in renal function in man has been investigated. Dopamine dose-response studies were performed in 7 healthy volunteers before and after sulpiride 200 mg i.v. The same investigations were performed in 15 healthy volunteers after pretreatment with the selective alpha-1-adrenoceptor antagonist prazosin (n = 7) and the non-selective alpha-adrenoceptor-blocker phentolamine (n = 8). Infusion of dopamine 0.25 to 8 micrograms.kg-1.min-1 resulted in a dose-dependent increase in effective renal plasma flow (ERPF) and glomerular filtration rate (GFR), and a fall in filtration fraction (FF) in 7 normal volunteers. Sulpiride had no effect on base-line ERPF or GFR and did not influence the dopamine-induced renal vasodilatation in those volunteers. It did cause a fall in the fractional sodium excretion (FENa+%) from 1.7 to 1.38, and shifted the dose-response curve of the natriuretic response to a subsequent infusion of dopamine. Sulpiride enhanced the fall in diastolic blood pressure during infusion of dopamine. In 7 other volunteers pretreated with prazosin, sulpiride did not influence base-line ERPF, GFR or FF or their response to dopamine, but the sodium excretion fell markedly (FENa+% changed from 1.13 to 0.63). Administration of sulpiride to 8 volunteers after phentolamine pretreatment 20 mg.h-1 i.v. in the first hour followed by 10 mg.h-1 i.v. resulted in a fall in sodium excretion (FENa+% from 1.09 to 0.53) without affecting ERPF or FF, and it did not affect the dose-response curve in the subsequent DA infusion.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of prolonged dopamine infusion on the zona glomerulosa of sodium-restricted rats treated or not with prolactin: stereology and plasma hormone concentrations

Prolonged sodium restriction was found to induce a notable hypertrophy of rat zona glomerulosa (ZG) cells and a significant rise in the basal plasma aldosterone concentration. Chronic prolactin administration significantly furthered the effects of sodium restriction. Dopamine infusion (3 mg/kg day for 7 days) did not apparently affect ZG morphology and function in the control rats, while it significantly counteracted the effects of sodium deprivation combined or not with prolactin administration. However, the action of dopamine was less intense in sodium-deprived rats treated with prolactin. These findings confirm the view that the dopaminergic system exerts a tonic inhibitory effect, modulated by the sodium balance, on the growth and secretory activity or rat ZG. Moreover, they suggest that the mechanism(s) underlying the antiadrenoglomerulotrophic action of dopamine in rats only partially involve(s) the well-known suppression of the hypophyseal release of prolactin.