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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vascular remodeling is central to the pathophysiology of hypertension and atherosclerosis. Recent evidence suggests that vasoconstrictive substances, such as angiotensin II (AII), may function as a vascular smooth muscle growth promoting substance. To explore the role of the counterregulatory hormone, atrial natriuretic polypeptide (ANP) in this process, we examined the effect of ANP (alpha-rat ANP [1-28]) on the growth characteristics of cultured rat aortic smooth muscle (RASM) cells. ANP (10(-7) M) significantly suppressed the proliferative effect of 1% and 5% serum as measured by 3H-thymidine incorporation and cell number, confirming ANP as an antimitogenic factor. In quiescent RASM cells, ANP (10(-7), 10(-6) M) significantly suppressed the basal incorporations of 3H-uridine and leucine by 50 and 30%, respectively. ANP (10(-7), 10(-6) M) also suppressed AII-induced RNA and protein syntheses (by 30-40%) with the concomitant reduction of the cell size. Furthermore, ANP also significantly attenuated the increase of 3H-uridine and leucine incorporations caused by transforming growth factor-beta (4 x 10(-11), 4 x 10(-10) M), a potent hypertrophic factor. These results indicate that ANP possesses an antihypertrophic action on vascular smooth muscle cells. Down-regulation of protein kinase C by 24-h treatment with phorbol 12,13-dibutyrate did not inhibit ANP-induced suppression on 3H-uridine incorporation. Based on the observation that ANP was more potent than a ring-deleted analogue of ANP on inhibiting 3H-uridine incorporation, we conclude that the ANP's inhibitory effect is primarily mediated via the activation of a guanylate cyclase-linked ANP receptor(s). Indeed 8-bromo cGMP mimicked the antihypertrophic action of ANP. Accordingly, we speculate that in addition to its vasorelaxant and natriuretic effects, the antihypertrophic action of ANP observed in the present study may serve as an additional compensatory mechanism of ANP in hypertension.
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PMID:Atrial natriuretic polypeptide inhibits hypertrophy of vascular smooth muscle cells. 217 26

Atrial natriuretic peptide (ANP) is secreted by the heart in response mainly to atrial distension and circulates in plasma in picomolar concentrations. It binds to receptors in blood vessels which it relaxes, renal glomeruli where it induces increased glomerular filtration rate, renal papilla to produce natriuresis, adrenal glomerulosa cells to inhibit aldosterone secretion, and median eminence and pituitary where it may inhibit vasopressin secretion. In experimental models of hypertension plasma levels of ANP are uniformly elevated, except in spontaneously hypertensive rats, in which plasma ANP may only rise transiently. The action of ANP on smooth muscle cells of the blood vessel wall results in production of cyclic GMP, which appears to be the second messenger producing relaxation of pre-contracted blood vessels. Mechanisms other than cGMP generation have been proposed but remain unproven as mediators of ANP action. Receptors for ANP in blood vessels are of two subtypes: B-receptors (or R1-receptors), which contain guanylate cyclase in their structure, and C-receptors (or R2-receptors), which have not been shown to the present to be biologically active. Our studies on vascular ANP receptors are reviewed. In several experimental models of hypertension such as saralasin-insensitive 2-kidney, 1-clip and 1-kidney, 1-clip Goldblatt hypertensive rats and in DOCA-salt hypertensive rats, we have found elevated plasma ANP, as well as decreased binding and ANP-induced vascular relaxation and blood pressure-lowering effects of ANP. Both the B and C ANP receptors appear decreased in density, even after acid washing of membranes to remove any retained circulating ANP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vascular receptors for atrial natriuretic peptide in hypertension. 217 36

Pinacidil is a novel, clinically effective vasodilator used for the treatment of hypertension whose mechanism of action has not been precisely defined. In vitro, pinacidil (ED50 = 0.3 microM) was approximately 30-fold less potent than nitroglycerin and 700-fold more potent than minoxidil or hydralazine in relaxing rat aortic strip preparations. Aortic relaxations produced by nitroglycerin and acetylcholine were dramatically antagonized by methylene blue (10(-5) M), an inhibitor of soluble guanylate cyclase. In contrast, relaxation to hydralazine or minoxidil was unaffected and relaxation to pinacidil was only modestly inhibited (approximately threefold) by methylene blue (10(-5) M). Furthermore, aortic relaxation to pinacidil was similar in preparations with and without an intact endothelium. Relaxation induced by pinacidil (10(-7)-10(-4) M) was not associated with any elevation in either cyclic AMP (cAMP) or cyclic GMP (cGMP) levels in vitro, although nitroglycerin (10(-6) M) but not minoxidil (10(-3) M) or hydralazine (10(-3) M) significantly elevated cGMP levels. Thus, pinacidil was a potent relaxant agonist in vitro, in contrast to minoxidil and hydralazine, which were considerably weaker in this regard. Vascular relaxation produced by pinacidil was independent of an intact endothelium and was not associated with elevations in either cAMP or cGMP. These data are consistent with the proposal that the antihypertensive activity of pinacidil is due to nonspecific arterial vasodilation.
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PMID:Effects of pinacidil on serotonin-induced contractions and cyclic nucleotide levels in isolated rat aortae: comparison with nitroglycerin, minoxidil, and hydralazine. 243 46

The Purkinje fibers of the rabbit false tendons (chordae tendineae spuriae) are endocrine cells containing immunoreactive atrial natriuretic factor (ANF) and ANF messenger RNA (mRNA). These cells, as visualized by immunocryoultramicrotomy, contain immunoreactive ANF in their secretory granules and their Golgi complex and exhibit ANF mRNA, as visualized by in situ hybridization with an ANF complementary RNA probe. The content of immunoreactive ANF and ANF mRNA of the Purkinje fibers is midway between that of atrial and ventricular working cardiocytes. High-pressure liquid chromatography analysis of immunoreactive ANF using antibodies against the C-terminal and N-terminal moieties of the molecule indicates that part of immunoreactive ANF contained in Purkinje fibers is the propeptide [Asn1,Tyr126]ANF whereas part was nonspecifically cleaved into C-terminal and N-terminal ANF. The chordae tendineae spuriae exhibit binding sites for ANF (Kd:approximately 1.0 nM; Bmax:approximately 2.3 fmol/mg). ANF profoundly decreases basal and stimulated (epinephrine, dopamine, isoproterenol, and forskolin) adenylate cyclase activity and cyclic adenosine monophosphate (AMP) levels. ANF has little effect on norepinephrine-stimulated adenylate cyclase activity or on norepinephrine-stimulated cyclic AMP levels. ANF produces only a slight increase in guanylate cyclase activity and cyclic guanosine monophosphate levels at high (10(7)-10(6) M) concentrations. These results suggest an autocrine function for ANF in the modulation of the impulse in the peripheral conduction cells (Purkinje fibers) of the rabbit through changes in second messenger levels.
Hypertension 1989 Jun
PMID:Atrial natriuretic factor in Purkinje fibers of rabbit heart. 247 58

The discovery of atrial natriuretic factor (ANF) constitutes a major advance in our knowledge of negative cell regulatory pathways leading to vasodilation. The biochemical mechanisms of the action of ANF at the cellular level appear to be mediated by the cGMP- particulate guanylate cyclase system. In the kidney, the main cGMP increasing effect of ANF occurs at the level of the glomeruli, but it appears that action of ANF at the lowest part of the distal tubule is required for its natriuretic activity. Although most current knowledge concerning ANF has been obtained with pharmacological doses of the hormone, it appears that endogenous manipulations of ANF, such as those occurring with postural change, are associated with physiological consequences including increases of cGMP, natriuresis, and diuresis. In both experimental and human hypertension, increased plasma levels of ANF are secondary to higher blood pressure. In hypertension, the administration of ANF leads to an exaggerated renal response. We propose as a hypothesis that an abnormality in the expression of a vasodilatory system, such as ANF-cGMP, may play a role in the pathogenesis of hypertension.
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PMID:Atrial natriuretic factor, the kidney and high blood pressure. 253 87

To investigate the possible relationship of atrial natriuretic factor (ANF) to hypertension, we examined the circulating levels of ANF in 3 patients with pheochromocytomas before surgery, during increase of their blood pressure with surgical manipulation of their tumors, and after surgery when their blood pressures returned to normal. The circulating levels of ANF were increased 2-fold in patients with both extra-adrenal and intra-adrenal pheochromocytomas. In both the intra-adrenal and extra-adrenal patients their ANF levels increased further during surgical manipulation and returned to normal after surgical removal of their respective tumors. Each of these pheochromocytomas was examined and found to have atrial natriuretic receptors that were functional since ANF could enhance the guanylate cyclase - cyclic GMP system two-fold in these pheochromocytomas. We conclude that ANF circulates at higher concentrations in persons with pheochromocytomas and returns to normal with removal of the tumor. In addition, pheochromocytomas contain specific ANF receptors and ANF itself within these tumors.
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PMID:Increased circulating concentration of atrial natriuretic factor in persons with pheochromocytomas. 254 76

The natriuretic effects of atrial peptide hormones have been attributed, at least in part, to their stimulation of guanylate cyclase activity in renal cell membranes. The effects of atrial natriuretic factor (ANF) on stimulation of cyclic guanosine monophosphate (cGMP) and cyclic adenosine monophosphate (cAMP) accumulation were investigated in cloned human kidney tumor (hKT) cells and parent cells from a human renal tumor epithelial cell line (SK-NEP-1). Human ANF-(99-126) (10(-6)M) stimulated (p less than 0.001) cellular cGMP accumulation in a dose-dependent manner from a basal level of 0.26 +/- 0.04 to 3.73 +/- 0.81 pmol/mg protein/5 mi (mean +/- SEM, n = 13). ANF stimulation of cGMP accumulation was specific, in that high concentrations (10(-6)M) of atriopeptin I [rat ANF-(103-123)], angiotensin II, arginine vasopressin, and amiloride (10(-4)M) did not increase basal cGMP. Amiloride (10(-4)M) enhanced (p less than 0.01, n = 6) the ANF stimulation of cGMP accumulation (1.24 +/- 0.39 pmol/mg protein/5 min), particularly at low doses of ANF (10(-10)M) where stimulation by ANF without amiloride (0.34 +/- 0.08 pmol/mg protein/5 min) was barely distinguishable from a basal level (0.19 +/- 0.02 pmol/mg protein/5 min) of cGMP accumulation. The stimulatory effect of ANF (1.59 +/- 0.07 pmol/mg protein/5 min) was attenuated (0.75 +/- 0.06 pmol/mg protein/5 min, p less than 0.01, n = 6) by preincubation of the cells with pertussis toxin but not by cholera toxin. ANF (4.56 +/- 0.93 pmol/mg protein/5 min, n = 8) did not affect cAMP accumulation (4.32 +/- 0.98 pmol/mg protein/5 min) in hKT cells. This is the first report of an ANF responsive human renal cell line, and its use should facilitate investigation of ANF-receptor interactions.
Hypertension 1989 Jun
PMID:Atrial natriuretic factor effects on cyclic nucleotides in a human renal cell line. 256 5

Since atrial natriuretic factor (ANF) is a natriuretic and vasodilatory hormone, its mechanisms of action expectedly involve so-called negative pathways of cell stimulation, notably cyclic nucleotides. Indeed, the guanylate cyclase-cyclic GMP (cGMP) system appears to be the principal mediator of ANF's action. Specifically, particulate guanylate cyclase, a membrane glycoprotein, transmits ANF's effects, as opposed to the activation of soluble guanylate cyclase such agents as sodium nitroprusside. The stimulation of particulate guanylate cyclase by ANF manifests several characteristics. One of them is the functional irreversibility of stimulation with its apparent physiological consequences: the extended impact of ANF on diuresis and vasodilation in vivo lasts beyond the duration of increased plasma ANF levels and is accompanied by a prolonged elevation of cGMP. Another characteristic is the parallelism between guanylate cyclase stimulation and increases of cGMP in extracellular fluids. cGMP egression appears to be an active process, yet its physiological implications remain to be uncovered. In heart failure, cGMP continues to reflect augmented ANF levels, suggesting that in this disease, the lack of an ANF effect on sodium excretion is due to a defect distal to cGMP generation. In hypertension, where ANF levels are either normal or slightly elevated, probably secondary to high blood pressure, the ANF responsiveness of the particulate guanylate cyclase-cGMP system, the hypotensive effects, diuresis and natriuresis are exaggerated. The implications of this exaggerated responsiveness of the ANF-cGMP system in the pathophysiology of hypertension and its potential therapeutic connotations remain to be evaluated.
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PMID:Biochemical mechanisms of atrial natriuretic factor action. 257 29

We have synthesized an S-nitrosylated derivative of captopril, S-nitrosocaptopril, that manifests nitrosovasodilatory activity, inhibits angiotensin converting enzyme activity and inhibits platelet aggregation. The direct vasodilatory effects of S-nitrosocaptopril reflect the effects of the thionitrite bond, the presence of which does not in any way influence S-nitrosocaptopril's ability to inhibit angiotensin converting enzyme. Thionitrite stimulation of both vascular and platelet soluble guanylate cyclase activity leads to increases in intracellular cyclic GMP that are accompanied by vasodilatation and platelet inhibition, respectively. S-nitrosocaptopril is a novel hybrid molecule that has potential use in the treatment of hypertension regardless of renin status, angina pectoris and congestive heart failure.
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PMID:S-nitrosocaptopril. I. Molecular characterization and effects on the vasculature and on platelets. 265 76

Experiments were designed to elucidate the effects of S-nitrosocaptopril (SnoCap) on vascular reactivity. Rings of bovine femoral and coronary arteries were mounted for isometric tension recording in physiological saline solution. SnoCap induced dose-dependent relaxations in both the coronary and femoral arteries, but inhibited contractions in the coronary artery to a significantly greater degree. Relaxations to SnoCap were inhibited by methylene blue. Angiotensin I and angiotensin II induced dose-dependent contractions in the bovine femoral artery. The angiotensin II antagonist saralasin induced comparable inhibition of the response to angiotensin I and angiotensin II. Captopril (10(-6) M) and SnoCap (10(-6) M) equally inhibited contraction to angiotensin I, inducing a 50-fold shift in the dose-response curve. SnoCap inhibited contraction to angiotensin II, inducing a 5-fold shift in the dose-response curve and depressing the maximum response. In summary, the S-nitrosylated derivative of captopril is a unique compound that inhibits vascular reactivity through activation of soluble guanylate cyclase and inhibition of angiotensin converting enzyme. This combined nitrovasodilator and angiotensin converting enzyme inhibitor may have clinical utility in hypertension, coronary artery disease and congestive heart failure.
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PMID:S-nitrosocaptopril. II. Effects on vascular reactivity. 265 77


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