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Query: UMLS:C0085580 (
essential hypertension
)
14,686
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dopamine is an endogenous catecholamine that modulates many functions including behavior, movement, nerve conduction, hormone synthesis and release, blood pressure, and ion fluxes. Dopamine receptors in the brain have been classically divided into D1 and D2 subtypes, based on pharmacological data. However, molecular biology techniques have identified many more dopamine receptor subtypes. Several of the receptors cloned from the brain correspond to the classically described D1 and D2 receptors. Several D1 receptor subtypes have been cloned (D1A, D1B, and D5) and are each coupled to the stimulation of adenylyl cyclase. The D2 receptor has two isoforms, a shorter form, composed of 415 amino acids, is termed the D2short receptor. The long form, called the D2long receptor, is composed of 444 amino acids; both are coupled to the inhibition of adenylyl cyclase. The D3 and D4 receptors are closely related to, but clearly distinct from, the D2 receptor. They have not yet been linked to adenylyl cyclase activity. Outside of the central nervous system, the peripheral dopamine receptors have been classified into the
DA1
and DA2 subtypes, on the basis of synaptic localization. The pharmacological properties of
DA1
receptors roughly approximate those of D1 and D5 receptors, whereas those of DA2 receptors approximate those of D2 receptors. A renal dopamine receptor with some pharmacological features of the D2 receptor but not linked to adenylyl cyclase has been described in the renal cortex and inner medulla. In the inner medulla, this D2-like receptor, termed DA2k, is linked to stimulation of prostaglandin E2 production, apparently due to stimulation of phospholipase A2. Of the cloned dopamine receptors, only the mRNA of the D3 receptor has been reported in the kidney. The
DA1
receptor in the kidney is associated with renal vasodilation and an increase in electrolyte excretion. The
DA1
-related vasodilation and inhibition of electrolyte transport is mediated by cAMP. The role of renal DA2 receptors remains to be clarified. Although
DA1
and DA2 receptors may act in concert to decrease transport in the renal proximal convoluted tubule, the overall function of DA2 receptors may be actually the opposite of those noted for
DA1
receptors. Dopamine has been postulated to act as an intrarenal natriuretic hormone. Moreover, an aberrant renal dopaminergic system may play a role in the pathogenesis of some forms of hypertension. A decreased renal production of dopamine and/or a defective transduction of the dopamine signal is/are present in some animal models of experimental hypertension as well as in some forms of human
essential hypertension
.
...
PMID:The renal dopamine receptors. 162 51
A low dose of dopamine (1 microgram/min/kg) infused for 3 h, which is without systemic hemodynamic effects in normal subjects, increased the renal blood flow and renal production of prostacyclin (PGI2). This action was blocked by metoclopramide as well as by either of two cyclooxygenase (CO) blockers, but effects were not altered by administration of the alpha 1 blocker prazosin. Much of the effect of dopamine (DA) is apparently via the
DA1
receptor, since fenoldopam (0.1 microgram/min/kg) reproduced these actions. However, although fenoldopam increased glomerular filtration rate and urinary Na+, CO blockers were without effect. In contrast neither DA or fenoldopam infusions changed either renal blood flow or PGI2 in a group of patients with
essential hypertension
. Renin secretion was shown to be increased via
DA1
receptor activation both in humans and rat renal tissue. The DA2 receptor may also play a role since domperidone can reduce renal blood flow.
...
PMID:Effect of dopamine on renal blood flow, prostaglandins, renin and electrolyte excretion in normal and hypertensive humans. 197 38
We recently reported that a low dose dopamine (DA) infusion in normal subjects increased renal blood flow (RBF) via prostacyclin (PGI2) formation without changes in PGE2 levels. The present study explores whether this mechanism is mediated by the
DA1
receptor and evaluates the effect of DA on RBF and PGs in subjects with
essential hypertension
(EH). A low dose of DA (1 microgram/kg.min), which previously did not alter hemodynamics in normal subjects was infused into eight patient with EH to determine the role of DA stimulation in hypertensives. To assess the effect of
DA1
stimulation, fenoldopam, a selective
DA1
agonist, was infused (0.1 microgram/kg.min) into 10 normal and 10 hypertensive patients. Fenoldopam, unlike DA, significantly decreased diastolic blood pressure in hypertensives (96 +/- 3 to 85 +/- 2 mm Hg; P less than 0.01) along with a significant increase in pulse rate (68 +/- 2 vs. 73 +/- 2 beats/min; P less than 0.01). RBF measured by para-aminohippurate clearance increased only in normals during fenoldopam infusion from 1185 +/- 71 to 1533 +/- 84 L/min.m2 (PGI(2)01), and this was associated with an increase in PGI2 (6-keto-PGF1) excretion (149 +/- 19 vs. 214 +/- 32 ng/g creatinine; P less than 0.02). These effects of fenoldopam were similar to DA effects on RBF and PGI2 excretion in normals. In contrast, in hypertensive subjects, neither fenoldopam (867 +/- 113 vs. 1054 +/- 177 L/min.m2; P greater than 0.1) nor DA (1098 +/- 85 vs. 1061 +/- 101 L/min.m2; P greater than 0.1) increased RBF. Similarly, neither the DA nor the fenoldopam infusion stimulated PGI2 excretion in the hypertensives. The fenoldopam infusion in the hypertensives produced a significant natriuresis (22 +/- 3 to 49 +/- 9 mmol/3 h; P less than 0.05). Similar effects on Na+ excretion in this group were noted during DA infusion (17 +/- 3 to 36 +/- 3 mmol/3 h; P less than 0.05), suggesting that DA-induced natriuresis is not directly linked to DA-induced changes in RBF or PG excretion. The present study shows that in normal subjects, fenoldopam, a specific
DA1
agonist, like DA, stimulates renal PGI2 release and RBF. In contrast, neither DA nor fenoldopam alters PGI2 or RBF in patients with EH, suggesting an alteration of dopaminergic tone in some hypertensives that is characterized by a defect in
DA1
receptor sensitivity.
...
PMID:Comparison of dopamine and fenoldopam effects on renal blood flow and prostacyclin excretion in normal and essential hypertensive subjects. 257 13
A series of studies were undertaken to assess the effect of oral fenoldopam, a specific
DA1
dopamine receptor agonist on blood pressure and renal function in patients with mild
essential hypertension
. Six patients with
essential hypertension
were entered into a dose-ranging study and received either placebo, 25, 50 or 100 mg fenoldopam. A significant, dose-related reduction in diastolic blood pressure, and increase in heart rate was demonstrated (both P less than 0.05), maximal at 45 min to 1 h. Fenoldopam increased plasma renin activity. In a double-blind study, seven patients received a single dose of fenoldopam 100 mg or placebo. Fenoldopam produced a significant fall in systolic (P less than 0.05) and diastolic (P less than 0.01) blood pressure and renal vascular resistance (P less than 0.01). Urine flow rate (P less than 0.05), sodium excretion (P less than 0.01), plasma renin activity (P less than 0.05) and plasma aldosterone (P less than 0.05) increased. Five patients underwent measurement of the above parameters following a single dose of fenoldopam 100 mg with a repeat of these measurements after they had taken fenoldopam 100 mg four times daily for 1 month. The acute response of blood pressure to the single dose appeared unchanged but tachyphylaxis was evident in the responses of heart rate, plasma renin activity and plasma aldosterone.
...
PMID:Studies with fenoldopam, a dopamine receptor DA1 agonist, in essential hypertension. 286 48
