EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In addition to cyclooxygenase and lipoxygenase, arachidonic acid (AA) is metabolized by the cytochrome P-450 monooxygenase system. The kidney is one of the major extrahepatic tissues that display cytochrome P-450 enzyme activities, in particular the cortex, specifically the proximal tubule demonstrate the highest concentration. AA is metabolized by the renal cytochrome P-450 epoxygenase and omega/omega 1 hydroxylases to epoxyeicosatrienoic acids and omega/omega-1 alcohols (20- and 19-mono-hydroxyeicosatetraenoic acids), respectively. These metabolites possess a broad spectrum of biological and renal effects which include: vasodilation, vasoconstriction, inhibition and stimulation of Na(+)-K(+)-ATPase, inhibition of ion transport mechanisms, natriuresis, inhibition of renin release and stimulation of cell growth. These metabolites are endogenous constituents of the kidney and are present in urine with increasing concentration under pathological conditions such as pregnancy-induced hypertension. The cytochrome P-450-dependent metabolism of AA is specifically localized to the proximal tubule and exhibits developmental changes, i.e., renal production of metabolites is very low in the fetus, newborn and up to 3 weeks of age, after which a remarkable increase in enzyme activities is observed. These characteristics call attention to the importance of this enzyme system in producing cellular mediators for regulating renal function in normal and diseased states.
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PMID:The renal cytochrome P-450 arachidonic acid system. 145 35

Chronic lead exposure may cause hypertension in normotensive rats. This hypertensinogenic effect has been attributed to perturbations in the renin-angiotensin axis, the contractile response of the vascular smooth muscle, or the intracellular Ca2+ homeostasis as a consequence of the inhibition of Na(+)-K(+)-ATPase activity. In this study we examined the short-term effect of lead exposure on blood pressure, plasma renin activity, vascular contractility, and renal Na(+)-K(+)-ATPase activity and abundance in the spontaneously hypertensive rat. Our data indicate that modest lead exposure caused blood pressure elevation within two weeks in this rat strain that is genetically susceptible to the development of hypertension. This rapid blood pressure-elevating effect did not appear to depend on the mechanisms described in hypertension associated with more chronic lead exposure listed above. This acute model provides an additional approach to the study of lead-induced hypertension.
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PMID:Rapid hypertensinogenic effect of lead: studies in the spontaneously hypertensive rat. 154 88

Atrial natriuretic factor is the main natriuretic hormone. It is a peptide secreted by the atria in response to an increase of the central blood volume. Its effects are opposed to those of the renin angiotensin system and all result in the decrease of volemia. The main of them are an increase in renal sodium excretion, decrease in vascular resistance, increase in capillary permeability, and inhibition of renin and aldosterone secretions. ANF stimulates, via its B receptors, the production of cyclic GMP which is its second messenger. ANF is catabolized by clearance receptors which internalize it and ectoenzymes, mainly neutral endoproteinase. Plasma ANF increases in various conditions for three essential reasons: increase of its secretion from the usual sources, increase of its secretion from supplementary sites, decrease of its catabolism. Since ANF is implied in the maintenance of homeostasis in several diseases, treatment by neutral endoproteinase inhibitors which increases plasma ANF has been considered. Another natriuretic factor structurally close to digitalin and inhibiting Na(+)-K+ ATPase has been described but not identified.
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PMID:[Natriuretic factors]. 160 57

To evaluate the importance of an endogenous sodium pump inhibitor in the pathogenesis of low renin human hypertension, the urinary excretion of a digoxin-like immunoreactive substance (DLIS) was measured in eight patients with primary aldosteronism (n = 5, with adenomas) during two sequential 1-week periods of low- (20 mmol/l NaCl) and high- (200 mmol/l NaCl) sodium intake. DLIS excretion increased consistently during high-sodium intake while urinary aldosterone, plasma renin activity, cortisol and adrenocorticotropic hormone did not change. Although blood pressure showed a time-course parallel to that of the urinary DLIS, the blood pressure increments were not accompanied by evidence of vasoconstriction since forearm blood flow (plethysmographic technique) increased and forearm vascular resistances were reduced. Moreover, the reactivity of forearm arterioles to local norepinephrine was unchanged during the period of low- and high-salt intake, despite the fact that an endogenous sodium pump inhibitor should, supposedly, sensitize the responses to an adrenergic agonist. Finally, forearm vasoconstrictor responses to ouabain, a pharmacological Na+,K(+)-ATPase antagonist, were potentiated during the high-salt diet, a result not expected if an increased number of sodium pumps were occupied by an endogenous inhibitor. These results provide unequivocal evidence for a modulation by salt intake of the urinary excretion of a DLIS in patients with primary aldosteronism. This substance might participate in the regulation of body fluid volume in this syndrome and possibly in other physiological conditions. However, no evidence could be found for a cause--effect relationship between blood pressure and DLIS increments during high-salt intake, at least during the short-term course of the study.
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PMID:Does a digoxin-like substance participate in vascular and pressure control during dietary sodium changes in patients with primary aldosteronism? 164 66

Recent studies about renal function and volume regulating hormones in obstructive sleep apnea (oSAS) indicate complex disturbances in volume homeostasis. Increased nocturnal secretion of atrial natriuretic peptide (ANP) and decreased renin secretion during apnea looks similar to a situation seen during hypervolemia or increased cardiac volume load. Increased venous return induced by pathologically high negative intrathoracic pressure during obstructive apnea may be the cause. Since during wakefulness no true hypervolemia is present, a "pseudohypervolemia" or "central hypervolemia" must exist caused by volume shift from the peripheral to the central compartment during apnea. Since volume homeostasis and blood pressure regulation are complexly connected the question arises whether disturbances in volume homeostasis play a role in the pathogenesis of arterial hypertension in sleep apnea. In a subgroup of hypertensive patients hypertension is salt-sensitive and volume dependent; it is called volume-expanded or low-renin hypertension. An inhibitor of the Na+/K(+)-ATPase acting via the digitalis receptor - called digitalis like factor (DLF) - is regarded as the causative agent for the development of hypertension in these cases. From this background, we were interested in the question whether DLF may be the linkage between disturbances in volume homeostasis and the pathogenesis of hypertension in sleep apnea. We could demonstrate a decrease of nocturnal urinary excretion of DLF during nasal continuous positive air pressure (nCPAP) therapy. Since a positive correlation between changes in diuresis respectively natriuresis and DLF excretion was found, we suggested DLF to be involved in changes of renal function in sleep apnea besides ANP. In 3 patients we measured nocturnal plasma levels of DLF and renin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Disturbances in volume regulating hormone system--a key to the pathogenesis of hypertension in obstructive sleep apnea syndrome? 165 Sep 45

Natriuretic hormone is a digoxin-like substance that inhibits Na-K-ATPase, membraneous sodium pump, leads to storage of sodium in the cells, increases their tone which plays a key role in the increase of peripheral resistance of the blood vessels and progression of hypertensive disease. Results indicate that the level of natriuretic hormone was increased at all stages of hypertensive disease, positively correlated with aldosterone and kallikrein and negatively--with the plasma renin activity that confirms its pressor action.
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PMID:[The role of the natriuretic hormone in neurohumoral regulation in hypertension]. 168 83

Thirty-seven subjects with low- and normal-renin hypertension (plasma renin activity less than 0.45 ng/L/sec on a 100 mmol Na diet) were studied on a 10 and 100 mmol sodium diet (100 mmol K and 25 mmol Ca) to examine the effect of varied sodium intake on plasma Na,K-ATPase inhibitory activity (NKAIA) (% inhibition). On the 10 mmol Na diet, plasma NKAIA correlated with mean arterial pressure (MAP) (r = 0.384, P = .019). On the 100 mmol Na diet, plasma NKAIA correlated with daily urinary sodium excretion (r = 0.384, P = .019). With the increase in sodium intake, the mean change in MAP was 0.5 +/- 7.8 mm Hg (range -12.7 to 16.3) and the mean change in plasma NKAIA was -4.2 +/- 11.2% inhibition (range -37.5 to 16). The change in MAP was correlated to the change in plasma NKAIA (r = 0.384, P = .019). Plasma NKAIA is related to mean arterial pressure or urinary sodium excretion depending on the dietary sodium intake, and is related to sodium-induced changes in MAP in low and normal renin hypertensive patients.
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PMID:Plasma sodium-potassium ATPase inhibition activity in low- and normal-renin hypertension. 184 65

Endothelin has been shown to affect a broad range of renal functions, including rat inner medullary collecting duct Na/K ATPase activity, renin release, renal blood flow, and glomerular filtration rate. The source of endothelin in the kidney has been assumed to be endothelial cells. However, the inner medulla contains the highest concentration of immunoreactive endothelin in the kidney. Additionally, MDCK cells, a distal tubule-like cell line, synthesize endothelin. In order to determine if primary renal tubule cells release endothelin, supernatants collected from rat inner medullary collecting duct cells in culture were tested for endothelin-1 detected by specific radioimmunoassay. Inner medullary collecting duct cells produced endothelin-1 in a time-dependent manner, releasing 1,016.7 +/- 60.1 pg of endothelin-1 per mg/cell protein/24 h. Inner medullary collecting duct cells expressed a 2.2-kilobase mRNA on blot hybridization with rat prepro endothelin-1 cDNA. Vasopressin, thrombin, bradykinin, and epinephrine did not affect endothelin-1 release. These data demonstrate endothelin-1 production by inner medullary collecting duct cells and suggest a possible autocrine role for the peptide.
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PMID:Endothelin synthesis by rat inner medullary collecting duct cells. 195 27

The genetic and cultural heritability and intercorrelation of traits related to hypertension have been carried out in 98 Utah pedigrees (2,500 person) and 58 sibships with two or more hypertensive persons (131 hypertensive persons). Although none of these traits has been established as a marker for "sodium-sensitive hypertension," many of them are related at least indirectly to both electrolyte metabolism and risk of hypertension. Significant recessive monogenic effects and high total heritability (52-84%) were found for urinary kallikrein, high fat pattern index, intraerythrocytic sodium, Na-Li countertransport, and ouabain binding sites. Familial correlations more strongly attributable to shared environment than to genetic effects were found for Na,K-ATPase pump activity, intraerythrocytic magnesium, plasma digoxin-like factor, plasma renin activity, and plasma sodium concentration. All anthropometric variables tested showed highly significant genetic heritability with low and insignificant shared family environmental effects. Several of the genetically determined cellular cation tests also correlated with other genetic traits including plasma lipids, anthropometric measurements, and other cellular cation tests. Among hypertensive individuals with familial dyslipidemic hypertension, plasma insulin levels correlated with obesity and lipid abnormalities and with several cellular cation flux tests associated with hypertension.
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PMID:Genetic traits related to hypertension and electrolyte metabolism. 198 14

The pathophysiology of hypertension in the black population differs to some extent from that of the nonblack population. Although black hypertensives exhibit enhanced sodium retention, expanded plasma volume, lower plasma renin activity, and a greater increase in blood pressure in response to high levels of Na+ intake compared with nonblack hypertensives, there is considerable heterogeneity in these studies. Alterations in ion transport mechanisms, such as a decrease in Na+K(+)-ATPase activity and Na+K+ cotransport, have been demonstrated in the black hypertensive population. Those features provide the physiologic basis for the differential response to monotherapy with diuretics and, perhaps, with calcium channel blockers, that is observed in black hypertensives, particularly when compared with responses to beta-blockers or angiotensin converting enzyme inhibitors.
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PMID:Pathophysiology of hypertension in blacks. 207 24

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