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)

Interest in centrally acting antihypertensive agents has recently been renewed with the development of drugs that are associated with fewer central adverse effects (e.g. sedation, dry mouth) than the older drugs in this class. Moxonidine reduces sympathetic outflow and hence lowers blood pressure through stimulation of central imidazoline receptors. Blood pressure is decreased by 10 to 20% during moxonidine treatment, with about 70% of patients with mild to moderate hypertension achieving a diastolic pressure of < 90mm Hg. The relatively few published comparative studies demonstrate that moxonidine has efficacy comparable with that of clonidine, prazosin, atenolol, nifedipine, captopril and hydrochlorothiazide. It is at least as well tolerated as these agents in trials and, importantly, appears to cause less sedation and dry mouth than clonidine. Compliance may be aided by the once- or twice-daily administration schedule with moxonidine, and dosage adjustment is only necessary in patients with moderate renal impairment. While its published clinical data base needs further expanding, moxonidine thus appears to be a more attractive option than oral clonidine, and may be considered along with the other classes of drug used to treat patients with mild to moderate hypertension.
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PMID:Moxonidine. A review of its pharmacology, and therapeutic use in essential hypertension. 128 69

Moxonidine (4-chloro-N-(4, 5-dihydro-1H-imidazol-2-yl)-6-methoxy-2-methyl-5-pyrimidinamine, BDF 5895) reduces blood pressure and heart rate in rats with genetic hypertension (SHR/Okamoto) and in rats with renovascular hypertension (Goldblatt 1 k/1 c). The hypotensive action was also confirmed in renal-hypertensive dogs. The hypotensive action is preceded by a reduction in plasma noradrenaline concentration, thus reflecting a reduction in sympathetic activity. In anesthetized cats, administration of moxonidine into the vertebral artery induces a greater hypotensive effect than i.v. injection of same doses, indicating the central nervous system as the site of hypotensive action. Similar to clonidine, the hypotensive action of moxonidine is abolished by pretreatment of the animals with a selective alpha 2-antagonist. Direct application of moxonidine into the cisterna magna of anesthetized rabbits revealed a 10-fold greater hypotensive potency than clonidine, in contrast to i.v. application where moxonidine was 10-fold less potent than clonidine. At least 10-fold higher doses of moxonidine were needed to cause side effects (sedation, inhibition of gastric secretion), when compared with clonidine. Interruption of presynaptic noradrenergic pathways completely abolished the hypotensive action of moxonidine. Thus moxonidine is endowed with a specific central site of action, presumably by stimulating central presynaptic alpha 2-adrenoceptors. This specific central hypotensive action enables a greater dissociation between the antihypertensive effect on the one hand, and the side effects on the other.
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PMID:General pharmacology of the novel centrally acting antihypertensive agent moxonidine. 319 83

In a six-week multicenter, double-blind comparison study, moxonidine and clonidine HCl were tested in 122 and 30 outpatients, respectively, with mild to moderate hypertension (World Health Organization stage I and II; highest measured diastolic blood pressure, 90 to 115 mm Hg). Each agent reduced systolic and diastolic blood pressure to a similar significant extent: moxonidine, 25.4 and 12.4 mm Hg, respectively; clonidine, 25.3 and 10.0 mm Hg, respectively (P less than .001 vs baseline). The mean individually titrated dose of moxonidine and clonidine HCl was found to be 0.36 mg/d. Clonidine slightly reduced heart rate in patients assuming an upright position by 3 beats/min at the end of dose titration (P = .018), while moxonidine did not. Two patients receiving moxonidine and three patients taking clonidine HCl discontinued therapy because of side effects. However, patients administered clonidine experienced significantly more side effects (53%) compared with a 30% incidence of adverse effects associated with moxonidine (P = .031). The most frequent adverse effect of both agents was dryness of mouth, which was mentioned significantly more often with clonidine (47%) than with moxonidine (20%) (P = .005). Edemas were found in 0.8% and 17% of patients during six-week treatment with moxonidine and clonidine, respectively (P = .001). Accordingly, moxonidine was tolerated significantly better than clonidine (P less than .001) in this parallel comparison study. Moxonidine is as effective as clonidine in monotherapy of mild to moderate essential hypertension and, additionally, neither drug produces clinically important changes in biochemical parameters.
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PMID:Comparison of moxonidine and clonidine HCl in treating patients with hypertension. 331 4

Although essential hypertension is usually defined as a hemodynamic disorder, it is expressed differently among individuals and varies during progression of the disease state. Therefore, various types of treatment can be envisioned. The use of selective I1-imidazoline-receptor agonists to modulate I1-imidazoline receptors involved in the central regulation of blood pressure has led to the introduction of a novel class of centrally acting antihypertensive drugs. Moxonidine, a representative molecule of this class, dissociates between a 10% alpha 2-adrenoceptor-agonist action linked with side effects such as fatigue or dry mouth, and a 90% specific antihypertensive action resulting from its selective agonistic action at I1-imidazoline receptors. Clinical experience is based on more than 2,000 patients and volunteers, and long-term efficacy has been demonstrated in about 500 patients who received a daily dose of moxonidine 0.2-0.4 mg. Moxonidine produces a pronounced reduction in peripheral vascular resistance without reflex tachycardia, accompanied by reduced plasma norepinephrine concentration and plasma-renin activity. Cardiovascular responses to exercise and standing remain nearly normal, and serious or life-threatening side effects, particularly the sympathetic overactivity that can occur on sudden withdrawal of other centrally acting agents, are never observed. In addition, moxonidine behaves neutrally with respect to plasma levels of cholesterol, potassium and glucose, glucose and lipid metabolism, and renal function, and can be administered without complication to patients with asthma or certain other diseases. Studies with magnetic resonance imaging have shown that moxonidine significantly reduces left ventricular mass, an indicator of left ventricular hypertrophy (LVH), within a 6-month treatment period, an effect that coincided with decreased plasma concentrations of catecholamines and renin. Comparisons between moxonidine and other well-established antihypertensive drugs such as nifedipine, atenolol, or angiotensin-converting enzyme inhibitors showed equal effectiveness in lowering blood pressure, whereas the adverse events profile always favored moxonidine. Considering its efficacy, safety, and specific effects (e.g., its ability to reduce LVH), moxonidine meets the criteria satisfied by other currently prescribed antihypertensive drugs. Because of its especially favorable benefit-to-risk ratio, moxonidine should be recommended as first-line treatment of hypertension and may also be useful in treating related problems such as LVH, coronary artery disease, and ventricular premature beats.
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PMID:I1-imidazoline-receptor agonists in the treatment of hypertension: an appraisal of clinical experience. 753 26

1. Previous reports of the effects of alpha 2-adrenoceptor stimulation on gastric secretion are inconsistent because it was not clear whether the compounds were activating alpha 2-adrenoceptors and/or newly described imidazoline receptors. In the present experiments, the effects of moxonidine, an I1-imidazoline receptor agonist and antihypertensive agent, on gastric secretion and on experimental gastric mucosal injury were examined. 2. Moxonidine (0.01, 0.1 and 1.0 mg kg-1, i.p.) potently inhibited basal (non-stimulated) gastric acid secretion in conscious rats with an ED50 of 0.04 mg kg-1. Two hours following administration of the highest dose of moxonidine (1.0 mg kg-1), gastric acid output was completely suppressed. Moxonidine also significantly increased intragastric pH, at the two highest doses. 3. The alpha 2-adrenoceptor agonist, clonidine (0.01, 0.1 and 1.0 mg kg-1, i.p.) decreased basal acid secretion at the lowest dose (37%) and at the highest dose (46%), while the intermediate dose did not affect gastric acid output. 4. In an ethanol-induced model of gastric mucosal injury, moxonidine decreased the length of lesions at the lowest and highest doses (0.01 and 1.0 mg kg-1) as well as the number of the lesions, at the highest dose (1.0 mg kg-1). 5. In pylorus-ligated rats, moxonidine significantly decreased acid secretion (all doses), total secretory volume (1.0 mg kg-1) as well as pepsin output (1.0 mg kg-1). 6. In comparison to clonidine, moxonidine appears to be a more potent anti-secretory and gastric-protective compound. These data indicate a potential role for imidazoline receptor agonists in the management of gastroduodenal diseases associated with hypertension. The relative contribution of the central and peripheral effects of moxonidine to these gastrointestinal actions remains to be determined.
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PMID:Effects of the selective I1 imidazoline receptor agonist, moxonidine, on gastric secretion and gastric mucosal injury in rats. 777 34

Sympathoadrenal inhibition by a direct action within the central nervous system is an advantageous route to blood pressure control. Stimulation of brain alpha 2-adrenergic receptors is one mechanism for sympathoadrenal suppression, but comes at the cost of nonspecific depression of CNS function, including sedation and decreased salivary flow. Evidence is accumulating for a second pathway for pharmacological control of sympathoadrenal outflow, mediated by a novel receptor specific for imidazolines. First-generation central antihypertensive agents, which are imidazolines such as clonidine, act primarily to stimulate these I1-imidazoline receptors in the rostral ventrolateral medulla oblongata (RVLM) to lower blood pressure, but have sufficient agonism at alpha 2-adrenergic receptors to produce side effects. Second-generation centrally acting antihypertensive agents, such as moxonidine and rilmenidine, are selective for I1 relative to alpha 2 receptors. The reduced alpha 2 potency of these agents correlates with reduced severity of side effects. In this study we further established the selectivity of moxonidine for I1-imidazoline sites by characterizing the direct interaction of [3H]moxonidine with these receptors in the RVLM and in adrenomedullary chromaffin cells. [3H]Moxonidine preferentially labeled I1-imidazoline sites relative to alpha 2-adrenergic sites, only a small portion of which were labeled in the RVLM. [3H]Moxonidine binding to I1-imidazoline sites was modulated by guanine nucleotides, implying that I1-imidazoline sites may be membrane receptors coupled to guanine nucleotide binding regulatory proteins (G proteins). Receptor autoradiography with [125I]p-iodoclonidine confirmed the presence of I1-imidazoline sites in the RVLM and other areas of the brainstem reticular formation. In contrast, alpha 2-adrenergic sites were mainly localized to the nucleus of the solitary tract. Moxonidine selectively displaced [125I]p-iodoclonidine binding from reticular areas, including the RVLM. In vivo studies in SHR rats confirmed the ability of moxonidine to normalize hypertension by an action within the RVLM and confirmed the correspondence of I1 binding affinity and antihypertensive efficacy. We also discuss prior literature on the cardiovascular pharmacology of imidazolines, reinterpreting previous studies that only considered alpha-adrenergic mechanisms.
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PMID:A novel mechanism of action for hypertension control: moxonidine as a selective I1-imidazoline agonist. 806 78

To examine the antihypertensive action of the centrally acting antiadrenergic drugs moxonidine and clonidine, systolic and diastolic blood pressure as well as heart rate were monitored by radio telemetry in spontaneously hypertensive rats (SHR) with established high blood pressure. Increasing doses were administered with regular rat chow for 6-8 day periods. Moxonidine reduced (p < 0.05) diastolic blood pressure at a dose of 8 mg/kg/day and systolic blood pressure at 13 mg/kg/day. Heart rate was reduced during high activity of rats corresponding to an antitachycardiac action. After withdrawal of 18 mg/kg administered for only 1 day, blood pressure returned to pretreatment values within 8 days. Clonidine reduced systolic and diastolic blood pressure at 0.3 mg/kg/day. At 0.8 and 1.3 mg/kg/day, systolic blood pressure reduction was less pronounced, although heart rate was reduced further, reaching values that were below those of untreated sleeping rats. When 1.3 mg/kg/day clonidine was discontinued, systolic as well as diastolic blood pressure increased above pretreatment values within 1 day. A rebound was also observed in heart rate, which increased by 150 beats/ min. A comparable rebound in blood pressure was observed after withdrawal of 0.3 mg/kg/day. Since a blood pressure rebound occurred also after withdrawal of 0.3 mg/kg/day clonidine in normotensive rats, the rebound phenomenon was independent of the presence of high blood pressure. No blood pressure rebound was observed when moxonidine (8 mg/kg/ day) was administered (chow or gavage) in normotensive rats. These findings in unanesthetized undisturbed rats demonstrate distinct differences in the mode of action of moxonidine and clonidine, which can be accounted for by specific interactions of moxonidine with imidazoline I1-receptors, whereas clonidine would interact not only with I1-receptors but also with alpha2-adrenoceptors, and most probably also with the vagal activity. In view of our previous studies demonstrating a rise in blood pressure and heart rate after a hypercaloric dietary intake, the selective I1-receptor agonist moxonidine appears particularly appropriate for treating overweight hypertension associated with an enhanced sympathetic outflow of the brain. Of importance in this respect is that a moxonidine-induced reduction in sympathetic outflow was not associated with a gain in body weight but resulted in reduced caloric intake.
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PMID:Drug withdrawal and rebound hypertension: differential action of the central antihypertensive drugs moxonidine and clonidine. 882 48

Excess activity of the sympathetic nervous system (SNS) is linked to human obese hypertension and to salt-sensitive hypertension. Paradoxically, reduced SNS activity has been implicated as a contributor to obesity, particularly in animal models, and salt loading usually inhibits SNS activity. We have investigated the relationship between SNS activity, diet, and hypertension in the obese spontaneously hypertensive rat (SHROB), a model with a recessive obesity trait superimposed on a hypertensive background with multiple metabolic abnormalities resembling human syndrome X. We examined the role of SNS overactivity in the adverse impact of excess dietary salt and the possible beneficial effects of sympatholytic therapy. Mean blood pressure (MBP) was increased in SHROB and SHR fed a 4% NaCl diet. The pressor effect of dietary salt was abolished by ganglionic blockade, suggesting that increased SNS activity contributed to the pressor effect of the high-salt diet. Moxonidine, a second-generation central antihypertensive, controlled hypertension in both SHROB and SHR. Kidney damage in SHROB was accelerated by dietary salt and was reduced by moxonidine. Moxonidine elicited progressive weight loss in SHROB but not in SHR. Food intake in SHROB was reduced to the level of lean SHR. SHROB and SHR treated with moxonidine showed improved glucose tolerance. Additionally, SHROB showed reduced levels of triglycerides, cholesterol, and insulin following moxonidine therapy. Inhibition of the SNS, as with moxonidine therapy, may ameliorate multiple abnormalities and have therapeutic advantages in obese hypertensive syndromes.
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PMID:Sympathetic nervous system in salt-sensitive and obese hypertension: amelioration of multiple abnormalities by a central sympatholytic agent. 882 50

Moxonidine is a second-generation, centrally acting antihypertensive drug with a distinctive mode of action. Moxonidine activates I1-imidazoline receptors (I1-receptors) in the rostroventrolateral medulla (RVLM), thereby reducing the activity of the sympathetic nervous system. Moxonidine leads to a pronounced and long-lasting blood pressure reduction in different animal models of hypertension, e.g., spontaneously hypertensive rats, renal hypertensive rats, and renal hypertensive dogs. Blood pressure reduction with moxonidine is usually accompanied by a reduction in heart rate which, however, in most studies is of shorter duration and lesser magnitude than the fall in blood pressure. Chronic administration of moxonidine to SHRs with established hypertension causes normalization of myocardial fibrosis, capillarization, and regressive changes in myocytes, in parallel with the reduction of blood pressure. Left ventricular hypertrophy and renal glomerulosclerosis are also significantly reduced. After withdrawal of chronic moxonidine treatment, blood pressure gradually rises to pretreatment values. Direct injection of moxonidine into the vertebral artery of cats elicits a more pronounced fall in blood pressure compared with i.v. injection of an equivalent dose. This observation and others clearly indicate that moxonidine's antihypertensive activity is centrally mediated. The RVLM is the site of action within the CNS that mediates pronounced blood pressure reduction after direct administration of moxonidine into the RVLM of anesthetized SHRs. Selective I1-receptor antagonists introduced into this area abolish the action of systemic moxonidine. Receptor binding studies have shown high and selective affinity of moxonidine for I1-receptors vs. alpha(2)-adrenergic receptors. In vivo studies using a variety of selective I1 or alpha(2)-adrenergic agonists and antagonists have confirmed the primary role of I1-receptors in blood pressure regulation by moxonidine. In addition to lowering blood pressure, moxonidine possesses further properties that appear likely to be relevant in its therapeutic application in the hypertensive syndrome. Moxonidine increases urine flow rate and sodium excretion after central and direct intrarenal administration. It is active against ventricular arrhythmias in a variety of experimental settings. It lacks the respiratory depressant effect attributed to central alpha 2 activation. It exerts beneficial effects on glucose metabolism and blood lipids in genetically hypertensive obese rats. It exhibits anti-ulcer activity. And, finally, moxonidine lowers intraocular pressure, suggesting a possible benefit in glaucoma. Therefore, moxonidine, by its novel mode of action, represents a new therapeutic principle in the treatment of hypertension. Because of its unique profile, moxonidine may prove to be effective in slowing progression of the disease by providing protective effects beyond merely blood pressure reduction. Further studies are needed to verify this potential.
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PMID:Pharmacology of moxonidine, an I1-imidazoline receptor agonist. 887 97

Moxonidine is an imidazoline compound which acts on I1 imidazoline 'receptors' in the central nervous system to reduce blood pressure. This novel mechanism of action is claimed to lead to fewer adverse effects than the older centrally-acting agents such as clonidine. In this review we examine the drug's pharmacology, clinical pharmacokinetics, efficacy as an antihypertensive agent including comparative studies with pre-existing drugs, and adverse effect profile. With a growing number of effective antihypertensive agents already available to the clinician, it is not yet clear whether moxonidine represents a significant advance in hypertension management.
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PMID:Moxonidine: a review. 940 Sep 4


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