UMLS:C0020538 - FACTA Search

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

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

The response of isolated blood vessels to a variety of vasoactive agonists is modulated by the presence of endothelial cells. Indeed, these cells can release both dilator and constrictor substances. The major endothelium-derived relaxing factor may be nitric oxide, which activates soluble guanylate cyclase in the smooth muscle, although the endothelial cells also secrete an unidentified hyperpolarizing factor. Among the natural stimuli for the release of endothelium-derived relaxing factors are circulating hormones, platelet products, thrombin, shear stress, and certain autacoids. Endothelium-derived relaxing factors may contribute to the regulation of the release of atrial natriuretic factor and renin. The endothelial cells can also release constricting factors; among the likely candidates are superoxide anions or the peptide endothelin. In hypertensive blood vessels, the ability to release endothelium-derived relaxing factors but not endothelium-derived contracting factors is blunted.
Hypertension 1989 Jun
PMID:Endothelium and control of vascular function. State of the Art lecture. 266 25

1. We have examined the effects of a range of smooth muscle relaxants on the maintained contractions produced in rat aortic rings by the protein kinase C activator, 4 beta-phorbol dibutyrate; these effects were compared with those on the contraction induced by the selective alpha 1-adrenoceptor agonist, methoxamine. The phorbol ester, at 0.3 microM, gave a sustained contraction which was, on average, of approximately the same magnitude as the maximum contraction produced by methoxamine, 10 microM. 2. The beta-adrenoceptor agonist, isoprenaline (0.01-1 microM) caused a dose-related relaxation of the methoxamine-induced contraction but had no effect on the contraction induced by the phorbol ester. 3. An activator of adenylate cyclase, forskolin (0.01-1 microM) produced a dose-related relaxation of the methoxamine-induced contraction and at 0.01-10 microM caused relaxation of the contraction induced by the phorbol ester. Similar results were obtained with the potassium channel activator, cromakalim (0.001-10 microM). 4. An activator of guanylate cyclase, sodium nitroprusside (0.001-100 microM) caused a dose-related relaxation of both the methoxamine-induced and the phorbol ester-induced contraction, being more effective on the former than on the latter. Similar results were obtained with enprofylline (1-1000 microM). 5. Methoxamine (10 nM-100 microM), given cumulatively, caused a dose-related contractile response. Pretreatment with isoprenaline (1 microM), enprofylline (10 microM) and nicorandil (1 microM) resulted in partial decrease of the subsequent response to methoxamine, while nicorandil (10 microM), forskolin (1 microM), sodium nitroprusside (10 microM) and cromakalim (1 microM) totally abolished it. 6. The phorbol ester, given cumulatively, caused increasing contraction in the concentration range 30 nM-10 microM. Pretreatment with forskolin (1 microM), sodium nitroprusside (10 microM), isoprenaline (1 microM), enprofylline (10 microM), nicorandil (1 microM or 10 microM), or cromakalin (1 microM or 10 microM), resulted in partial decrease of the subsequent response to 4 beta-phorbol dibutyrate. 7. These results are discussed in the light of the suggestion that protein kinase C may have a role in the 'latch-bridge' phase of smooth muscle contraction, and that inappropriate activation of protein kinase C may contribute to the pathogenesis of hypertension and other conditions involving vasospasm.
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PMID:The effect of relaxants working through different transduction mechanisms on the tonic contraction produced in rat aorta by 4 beta-phorbol dibutyrate. 275 36

The sequence of atrial natriuretic factor (ANF) has been determined, as well as the complete structure of the rat and human complementary DNA and gene. ANF and ANF messenger RNA are present not only in atria but also in ventricles. The circulating form of ANF has been identified as the C-terminal of the molecule, ANF (Ser 99-Tyr 126). The isolated secretory granules of rat atrial cardiocytes contain only pro-ANF (Asn 1-Tyr 126). An enzyme (IRCM-SP1) has been isolated from heart atria and ventricles. This enzyme is highly specific in cleaving ANF (Asn 1-Tyr 126), to yield ANF (103-126), (102-126), and (99-126). In target cells, ANF produces a rise in cyclic guanosine 3',5'-monophosphate (cGMP) due to activation of particulate guanylate cyclase, and inhibition of adenylate cyclase leading in some cases to a decrease in cyclic adenosine 3',5'-monophosphate (cAMP). ANF produces relaxation of rabbit and rat aortic strips, inhibits steroidogenesis in both zona glomerulosa and zona fasciculata cells, and inhibits the release of arginine vasopressin from the isolated rat hypothalamohypophysial preparation in vitro but decreases AVP release in vivo only at pharmacological doses. In all forms of experimental hypertension, plasma levels of ANF are increased and, at some time periods, atrial levels are also decreased. The ventricular levels of immunoreactive ANF are also increased in renal hypertension. Infusion of ANF by minipumps decreases the blood pressure near control levels in several models of experimental hypertension. In cardiomyopathic hamsters with heart failure, the atrial levels of immunoreactive ANF are decreased while the plasma and ventricular levels are increased.(ABSTRACT TRUNCATED AT 250 WORDS)
Hypertension 1987 Nov
PMID:The heart as an endocrine gland. 282 60

The cellular mechanism of the action of atrial natriuretic factor (ANF) is thought to involve activation of guanylate cyclase. Increasing evidence shows a direct tubular effect of ANF. Part of the ANF-induced diuresis has been suggested to be due to inhibition of the action of arginine vasopressin (AVP) in the cortical collecting tubule. In this study we investigated the effect of ANF on cyclic nucleotide production in primary cultures of cortical collecting tubule cells immunodissected with a monoclonal antibody. ANF caused a dose-dependent stimulation in cyclic guanosine 3',5'-monophosphate (cGMP) production; the half-maximal stimulation was observed at approximately 1 nM of ANF. ANF (0.01-100 nM) had no effect on cyclic adenosine 3',5'-monophosphate (cAMP) accumulation in cortical collecting tubule cultures. AVP caused a dose-dependent increase in cAMP production, and this effect was not altered by the simultaneous addition of ANF (100 nM). Similarly, ANF-induced cGMP stimulation was not influenced by AVP (10 nM). We conclude that 1) ANF has a direct stimulatory action on cGMP production by cultured cortical collecting tubule cells and 2) any interaction between ANF and AVP is likely to occur at steps distal to cyclic nucleotide formation.
Hypertension 1988 Apr
PMID:Effects of atrial natriuretic factor and vasopressin on cyclic nucleotides in cultured kidney cells. 283 39

Abnormalities in the coupling of atrial natriuretic factor (ANF) receptors with the guanosine 5'-cyclic monophosphate (cGMP) system in vascular smooth muscle cells (VSMCs) may play a role in the pathophysiology of hypertension in the spontaneously hypertensive rat (SHR). This concept was examined in cultured, aortic VSMCs (passages 6-10) from SHR, Wistar-Kyoto (WKY), and American Wistar (Wis) rats. Quiescent VSMCs of the SHR (serum deprived for 24 h) had higher ANF receptor density (Bmax) and lower affinity [i.e., increased equilibrium dissociation constant (Kd)] than cells from normotensive controls. Maximal binding (Bmax) (specific binding sites/cell) values for these cells were SHR 112,855 +/- 6,951, WKY 48,650 +/- 3,607, and Wis 36,122 +/- 2,607 (means +/- SE; P less than 0.001 for SHR vs. both WKY and Wis). The Kd values were (in nM) SHR 1.20 +/- 0.098, WKY 0.657 +/- 0.065, and Wis 0.37 +/- 0.037 (P less than 0.001 for SHR vs. both WKY and Wis). Despite their higher Bmax, VSMCs of the SHR showed a substantially lower maximal stimulation of cGMP accumulation in response to ANF: 987 +/- 29.3, 1,992 +/- 574.2, and 2,019 +/- 273.8 fmol.4 min-1.10(6) cells-1 for SHR, WKY, and Wis, respectively (P less than 0.01 for SHR vs. Wis and P less than 0.02 for SHR vs. WKY). Further experiments demonstrated that the poor response of SHR VSMCs to the ANF was not due to a population of receptors that did not couple to the particulate guanylate cyclase. Such findings demonstrate a dissociation of the cGMP response to ANF from the binding of the hormone to its receptors in VSMCs of the SHR compared with controls. This appears to represent a primary and innate defect in these cells that may contribute to the hypertensive process in the SHR.
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PMID:Blunted cGMP response to ANF in vascular smooth muscle cells of SHR. 284 33

Both our previous and the present studies established that increases in cyclic guanosine monophosphate (cGMP) reflect the activity of atrial natriuretic factor (ANF). The ANF message is transmitted by particulate guanylate cyclase, which appears to be in intimate contact with the ANF receptor since stimulation of particulate guanylate cyclase is observed even after dispersion of the membranes. The stimulation of smooth muscle and endothelial cells in culture leads to egression of cGMP to extracellular medium where it accumulates for over 2 h. The signal of the extracellular cGMP is magnified and prolonged compared to the intracellular signal. The stimulation of cGMP production by ANF in vascular smooth muscle and endothelial cells appears to be relatively irreversible and the responsiveness is down-regulated by prior exposure to low doses of ANF. Cyclic guanosine monophosphate can also serve as a marker for ANF action. Atrial natriuretic factor fragments of different potencies exert a biological activity that correlates with ANF-induced cGMP increases. In hypertensive rats and monkeys, where acute infusion of ANF leads to an exaggerated diuresis and natriuresis, urinary cGMP does not appear to be different. Overall, cGMP appears to be a mediator and a marker of ANF biological activity and may serve as a useful tool in the study of pathogenesis of hypertension.
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PMID:Cyclic GMP as mediator and biological marker of atrial natriuretic factor. 287 13

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