Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasma dopamine beta-hydroxylase (DBH) activity was estimated in non-pregnant women, normotensive pregnant women during the third trimester and women with pregnancy-induced hypertension (PIH). Non-pregnant women from a high income group had significantly higher DBH activity than their low income counterparts. DBH activity was significantly elevated in women with PIH when compared with non-pregnant and normal pregnant women from a low income group, but was lower than the level in well-nourished, non-pregnant normotensive women.
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PMID:Plasma dopamine beta-hydroxylase activity in pregnancy-induced hypertension. 661 41

The article is section 1 of the second part of a 4-part series which provides a comprehensive, concise review of pertinent literature published in the last 25 years on the metabolic and endocrine consequences of spinal cord injury (SCI). This article describes the consequences of total removal of the sympathetic and partial removal of the parasympathetic nervous system from brain integration. Subjects reviewed include bradycardia, altered coagulation, blood pressure instability, relation of hypotension to level of injury, blood and urine neurohormones, hemodynamic responses to stress and fluid infusions, neural components of glucose regulation, evaluation of catecholamines and their metabolites at different time periods, and evaluation of catecholamies, blood dopamine hydroxylase, and prostaglandins during hypotension and hypertension. Other studies reviewed include investigations of metabolic and circulatory responses to exogenous norepinephrine and physiologic and biochemical responses to intense cold and to sodium depletion. Data are organized under the following heads: a. Problems Studied, b. Methods of Investigation and Results, and c. Conclusions. Pertinent highlights from the original articles are organized in tables, to facilitate direct comparisons between similar studies and between data on healthy subjects and SCI patients. Additional studies dealing wth partial decentralization of the autonomic nervous system will be reviewed in section 2 of Part II of this series.
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PMID:Metabolic and endocrine changes in spinal cord injury: II (section 1). Consequences of partial decentralization of the autonomic nervous system. 675 94

The effects of clonidine and minoxidil on sympathetic nervous activity has been studied in 10 patients with accelerated or resistant hypertension. Clonidine 150 to 900 micrograms/day caused a significant decrease in blood pressure of 18.6 mm Hg, of heart rate 16.4 beats/min, of plasma renin activity 1.13ng/ml h, and of urinary noradrenaline excretion 11.55 micrograms/day, and a significant lengthening of the pre-injection period of 12.4 ms. Minoxidil 5 to 22.5 micrograms/day caused a further significant decrease in blood pressure of 24.2 mm Hg, and significant increases in heart rate 8.2 beats/min, plasma renin activity 1.68 ng/ml h and of urinary noradrenaline excretion 5.0 micrograms/day, and a significant shortening of the pre-ejection period of 20.6 ms. Neither clonidine nor minoxidil altered plasma dopamine beta-hydroxylase activity or the cardiovascular responses to treadmill exercise. It is concluded that clonidine is a useful alternative agent to block a minoxidil-induced increase in sympathetic nervous activity.
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PMID:Effect of minoxidil on sympathetic nervous activity in clonidine-treated hypertensive patients. 703 Jul 51

1. Dopamine beta-hydroxylase is stored and released with catecholamines by exocytosis from secretory vesicles in noradrenergic neurons and chromaffin cells. Although dopamine beta-hydroxylase enzymic activity is measurable in cerebrospinal fluid, such activity is unstable, and its relationship to central noradrenergic neuronal activity in humans is not clearly established. To explore the significance of cerebrospinal fluid dopamine beta-hydroxylase, we applied a homologous human dopamine beta-hydroxylase radioimmunoassay to cerebrospinal fluid, in order to characterize the properties and stability of cerebrospinal fluid dopamine beta-hydroxylase, as well as its relationship to central noradrenergic neuronal activity and its variation in disease states such as hypertension, renal failure, Parkinsonism and congenital dopamine beta-hydroxylase deficiency. 2. Authentic, physically stable dopamine beta-hydroxylase immunoreactivity was present in normal human cerebrospinal fluid at a concentration of 31.3 +/- 1.4 ng/ml (range: 18.5-52.5 ng/ml), but at a 283 +/- 27-fold lower concentration than that found in plasma. Cerebrospinal fluid and plasma dopamine beta-hydroxylase concentrations were correlated (r = 0.67, P = 0.001). Some degree of local central nervous system control of cerebrospinal fluid dopamine beta-hydroxylase was suggested by incomplete correlation with plasma dopamine beta-hydroxylase (with an especially marked dissociation in renal disease) as well as the lack of a ventricular/lumbar cerebrospinal dopamine beta-hydroxylase concentration gradient. 3. Cerebrospinal fluid dopamine beta-hydroxylase was not changed by the central alpha 2-agonist clonidine at a dose that diminished cerebrospinal fluid noradrenaline, nor did cerebrospinal fluid dopamine beta-hydroxylase correspond between subjects to cerebrospinal fluid concentrations of noradrenaline or methoxyhydroxyphenylglycol; thus, cerebrospinal fluid dopamine beta-hydroxylase concentration was not closely linked either pharmacologically or biochemically to central noradrenergic neuronal activity. 4. Cerebrospinal fluid dopamine beta-hydroxylase was not changed in essential hypertension. In Parkinson's disease, cerebrospinal fluid dopamine beta-hydroxylase was markedly diminished (16.3 +/- 2.9 versus 31.3 +/- 1.4 ng/ml, P < 0.001) and rose by 58 +/- 21% (P = 0.02) after adrenal-to-caudate chromaffin cell autografts. In congenital dopamine beta-hydroxylase deficiency, lack of detectable dopamine beta-hydroxylase immunoreactivity in cerebrospinal fluid or plasma suggests absent enzyme (rather than a catalytically defective enzyme) as the origin of the disorder. 5. We conclude that cerebrospinal fluid dopamine beta-hydroxylase immunoreactivity, while not closely linked to central noradrenergic neuronal activity, is at least in part derived from the central nervous system, and that its measurement may be useful in both the diagnosis and treatment of neurological disease.
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PMID:Dopamine beta-hydroxylase immunoreactivity in human cerebrospinal fluid: properties, relationship to central noradrenergic neuronal activity and variation in Parkinson's disease and congenital dopamine beta-hydroxylase deficiency. 814 25

Chromogranins A and B are major soluble proteins in chromaffin granules. Their adrenomedullary content is increased in the spontaneously (genetic) hypertensive rat. Is augmented catecholamine vesicular storage of the chromogranins a specific feature of genetic hypertension? To explore this question, we measured chromogranin A immunoreactivity, using a novel, synthetic peptide radioimmunoassay, in rat adrenal medullas 4-6 weeks after induction of the two-kidney, one clip Goldblatt model of renovascular hypertension and in unmanipulated control animals. We also measured messenger RNAs of chromogranins A and B and dopamine beta-hydroxylase by Northern blot. Immunoreactive adrenal chromogranin A was 3.3-fold higher (p < 0.01) in clipped rat adrenals. Adrenal catecholamine concentrations and phenylethanolamine-N-methyltransferase activity were also higher in clipped rats. Adrenal dopamine beta-hydroxylase activity (both membrane-bound and soluble forms) and corticosterone (glucocorticoid) concentration did not significantly differ between the groups. Adrenal medullary chromogranin A messenger RNA levels in clipped rats were 3.2-fold higher (p = 0.029) than those in the control group, and chromogranin B messenger RNA levels were 4.6-fold higher (p = 0.05). Dopamine beta-hydroxylase messenger RNA levels were 2.9-fold higher (p = 0.038). Thus, augmented synthesis and storage of adrenomedullary chromogranins A and B, catecholamines, and their biosynthetic enzymes appear to be characteristic of both acquired and genetic hypertension.
Hypertension 1993 May
PMID:Catecholamine secretory vesicles. Augmented chromogranins and amines in secondary hypertension. 849 1

Nepicastat (RS-25560-197) is a novel, selective, and potent inhibitor of dopamine beta-hydroxylase, which modulates catecholamine levels (reduces norepinephrine and elevates dopamine) in cardiovascular tissues. This study was designed to evaluate the cardiovascular effects of nepicastat. Acute oral administration of nepicastat (0.3, 1, 3, 10, and 30 mg/kg) produced attenuation of the pressor and positive chronotropic responses to preganglionic sympathetic nerve stimulation (about twofold to sixfold shift in the frequency-response curve) in pithed spontaneously hypertensive rats (SHRs). In inactin-anesthetized SHRs, the antihypertensive effects of nepicastat (3 mg/kg, i.v.) were accompanied by a significant decrease in renal vascular resistance (38%), a tendency toward an increase in renal blood flow (22%), and no adverse effects on urine output and Na/K excretion. In conscious, unrestrained, telemetry-implanted SHRs, nepicastat (30 and 100 mg/kg/day for 30 days) produced dose-dependent decreases in mean arterial blood pressure (peak decrease of 20 and 42 mm Hg, respectively) without evoking reflex tachycardia. Long-term, concurrent administration of nepicastat (30 mg/kg/day, p.o.) and a subthreshold dose of enalapril (1 mg/kg/day, p.o.) produced greater antihypertensive effects than those produced by nepicastat alone. In normal dogs, nepicastat (5.0 mg/kg, p.o., b.i.d., for 4.5 days) blunted the positive chronotropic and pressor response to tyramine. These findings suggest that nepicastat functionally modulates sympathetic drive to cardiovascular tissues and may be of value in the treatment of cardiovascular disorders associated with overactivation of the sympathetic nervous system such as hypertension and congestive heart failure.
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PMID:Cardiovascular effects of nepicastat (RS-25560-197), a novel dopamine beta-hydroxylase inhibitor. 964 84

The purpose of this study is to review the role of dopamine in hypertension and associated conditions. The analysis of literature indicates that present knowledge is mostly based on poor markers and indirect evidence of dopaminergic activity and only few molecular biological data. Alternative markers such as plasma dopamine sulfate emerge as a possible substitute for the low plasma free dopamine detectability, one of the main obstacles in understanding the relationship between circulating dopamine and its receptor actions in hypertension. Essential hypertension represents a heterogeneous entity: based on evidence in borderline and non-modulating hypertension, the tubular dopamine receptor defect may be compensated by increased dopamine synthesis (dopamine beta-hydroxylase suppression-mediated?) and release; alternatively, compatible with data in stable, salt-sensitive and low renin-hypertension, the receptor defect may be amplified by a deficient dopamine synthesis, basal and in response to salt and volume expansion. Secondary forms of hypertension (renovascular, renal, polycystic kidneys, mineralocorticoid, pheochromocytoma) associated conditions (renal and heart failure, diabetes, hypovolaemia, mastocytosis) or iatrogenic (cocaine abuse) are mostly reflected by increased dopamine indices, some of them proposed to be counteracting the activation of prohypertensive mechanisms. In conclusion dopamine should thus be monitored in hypertension while respecting several associated conditions affecting peripheral dopaminergic activity. Catecholamine synthesis and metabolism enzymes' and dopamine receptors' targeting are essential for advancing the understanding of dopamine's diagnostic and therapeutic implications.
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PMID:Peripheral dopamine in hypertension and associated conditions. 1048 70

Chromogranin A expression is heritable in humans, and both plasma chromogranin A concentration and its releasable adrenal and sympathetic neuronal pools are augmented in established essential (hereditary) hypertension. To evaluate chromogranin A further as a simpler or "intermediate phenotype" in the complex trait of hypertension, we studied chromogranin A expression in the spontaneously hypertensive rat (SHR), a rodent model of essential hypertension. Both plasma (p < 0.0001) and adrenal medullary (p = 0.003 to p < 0.0001) chromogranin A were elevated in the SHR, even at the earliest stages (3-4 weeks of age). In the adult adrenal gland, both chromogranin A (p=0.005) and norepinephrine (p=0.011) were increased in the SHR, while dopamine beta-hydroxylase activity was diminished (p < 0.0001). Chromogranin A mRNA expression was also elevated in the SHR adrenal medulla (p = 0.017). Differences in chromogranin A processing were not noted between SHR and Wistar Kyoto control (WKY) rats. In an SHR x WKY genetic intercross, control of the adrenal chromogranin A phenotype by a single major locus was suggested by comparison of phenotypic variance of the F2 vs F1 generations, and by bimodal frequency histogram (3:1 ratio), confirmed by maximum likelihood analysis (chi2 = 74.6, p < 0.000001) in the F2 generation. However, microsatellite alleles at a surrogate locus (Ighe) 12.7 cM from chromogranin A (Chga), on rat chromosome 6, failed to co-segregate with blood pressure in an F2 generation (F = 0.06, p = 0.94). In another rodent model of hereditary hypertension, the genetically hypertensive mouse (BPH/2), adrenal chromogranin A (p=0.018) and norepinephrine (p = 0.004) were actually diminished. We conclude that over-expression of chromogranin A is a variable feature of mammalian genetic hypertension. In one rodent model (the SHR), over-expression of chromogranin A is largely controlled by a single genetic locus, but the chromogranin A locus itself is not directly linked to determination of the blood pressure elevation of the SHR.
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PMID:Catecholamine storage vesicle protein expression in genetic hypertension. 1080 89

We have previously reported the establishment of a novel rat strain, SHR-od, with both spontaneous hypertension and a defect of ascorbic acid biosynthesis. Blood pressure in mature SHR-od fed an ascorbic acid-supplemented diet is over 190-200 mmHg, while it decreased to around 120 mmHg at 4-5 weeks after the cessation of ascorbic acid supplementation. With regard to possible mechanisms of blood pressure lowering, we focused on catecholamine synthesis in adrenal glands, since catecholamine is a major factor for blood pressure regulation and ascorbic acid is a co-factor of dopamine beta-hydroxylase (DBH) in catecholamine biosynthesis. Male SHR-od (25-week-old) and normotensive ODS rats with a defect in ascorbic acid biosynthesis (25-week-old) were fed a Funabashi-SP diet with or without ascorbic acid (300 mg/kg diet) for 28 days or 35 days. In SHR-od, systolic blood pressure (191 +/- 6 mmHg) began to decrease from day 21 in the ascorbic acid-deficient group, whereas no significant difference was found in ODS rats. In spite of significant lowering of blood pressure, no significant differences were found in catecholamine levels in serum, adrenal glands and brain on day 28. On day 35, however, urinary excretion of norepinephrine and epinephrine in the ascorbic acid-deficient SHR-od were higher at 490% (P < 0.05) and 460% (P < 0.05) of the respective control. Serum catecholamine concentrations and the adrenal catecholamine content tended to be higher in the ascorbic acid-deficient SHR-od than the control of SHR-od and reached to similar level in ODS rats. The administration of ascorbic acid (intraperitoneal injection, 60 mg ascorbic acid/kg body weight, once a day) to the ascorbic acid-deficient SHR-od restored blood pressure to the range 180-190 mmHg within two days. These findings indicate that ascorbic acid deficiency affects catecholamine metabolism in the adrenal glands of SHR-od in response to blood pressure lowering, suggesting catecholamines are not involved in the mechanism for the remarkable reduction in blood pressure in response to ascorbic acid deficiency.
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PMID:Changes in catecholamine metabolism by ascorbic acid deficiency in spontaneously hypertensive rats unable to synthesize ascorbic acid. 1255 93

Chronic intermittent hypoxia, a characteristic feature of sleep-disordered breathing, induces hypertension through augmented sympathetic nerve activity and requires the presence of functional carotid body arterial chemoreceptors. In contrast, chronic sustained hypoxia does not alter blood pressure. We therefore analyzed the biosynthetic pathways of catecholamines in peripheral nervous system structures involved in the pathogenesis of intermittent hypoxia-induced hypertension, namely, carotid bodies, superior cervical ganglia, and adrenal glands. Rats were exposed to either intermittent hypoxia (90 seconds of room air alternating with 90 seconds of 10% O2) or to sustained hypoxia (10% O2) for 1 to 30 days. Dopamine, norepinephrine, epinephrine, dihydroxyphenylacetic acid, and 5-hydroxytyptamine contents were measured by high-performance liquid chromatography. Expression of tyrosine hydroxylase and its phosphorylated forms, dopamine beta-hydroxylase, phenylethanolamine N-methyltransferase, and GTP cyclohydrolase-1 were determined by Western blot analyses. Both sustained and intermittent hypoxia significantly increased dopamine and norepinephrine content in carotid bodies but not in sympathetic ganglia or adrenal glands. In carotid bodies, both types of hypoxia augmented total levels of tyrosine hydroxylase protein and its phosphorylation on serines 19, 31, 40, as well as levels of GTP cyclohydrolase-1. However, the effects of intermittent hypoxia on catecholaminergic pathways were significantly smaller and delayed than those induced by sustained hypoxia. Thus, attenuated induction of catecholaminergic phenotype by intermittent hypoxia in carotid body may play a role in development of hypertension associated with sleep-disordered breathing. The effects of both types of hypoxia on expression of catecholaminergic enzymes in superior cervical neurons and adrenal glands were transient and small.
Hypertension 2003 Dec
PMID:Regulation of catecholamines by sustained and intermittent hypoxia in neuroendocrine cells and sympathetic neurons. 1459 43


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