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)

Cardiac adaptation to hemodynamic stress involves both quantitative (hypertrophy) and qualitative (pattern of gene expression) changes. Our previous studies have shown that advancing age in the rat is associated with diminished capacity to develop left ventricular hypertrophy in response to either ascending aortic constriction (AoC). In this study, we examined whether the expression of protooncogenes and contractile protein genes in response to AoC differs between adult (9-mo-old) and old (18-mo-old) rats. RNA was isolated from the left ventricles of AoC animals of both age groups subjected to a similar hemodynamic stress. Immediately after AoC, the levels of the ventricular expression of c-fos and c-jun protooncogenes were markedly lower in the old rats than in the adult animals. 5 d after the operation, the ratio of beta- to alpha-myosin heavy chain mRNAs increased significantly after AoC in both age groups. In contrast, AoC was associated with a marked reduction in the levels of mRNAs encoding sarcoplasmic reticulum Ca(2+)-ATPase (by 69%) and cardiac calsequestrin (by 49%) in the old rats but not in the adults. The mRNAs encoding atrial natriuretic factor and skeletal alpha-actin increased in response to AoC only in the adult rats. There were no significant differences in expression of the cardiac alpha-actin mRNA among the experimental groups. These data suggest that (a) the expression of protooncogenes in response to acute pressure overload is significantly reduced in the aged rats and (b) the pattern of expression of the contractile protein gene in response to AoC in the old rats differs qualitatively as well as quantitatively from that in younger animals. These age-related differences may play a role in the higher frequency of heart failure in the aged during hemodynamic stress.
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PMID:Age-related differences in the expression of proto-oncogene and contractile protein genes in response to pressure overload in the rat myocardium. 153 37

In the mammalian heart, the expression of genes encoding proteins responsible for contraction, relaxation, and endocrine function changes in hypertrophy resulting from hemodynamic overload. Different mechanisms are involved in this mechanogenic transduction, including 1) differential expression of myosin and actin multigene families, which may account for the decreased velocity of contractile element shortening in hypertrophied heart, 2) nonactivation of the sarcoplasmic reticulum Ca(2+)-ATPase gene, which may explain the increased duration of isometric relaxation, and finally 3) activation in the ventricle of the atrial natriuretic factor gene that is responsible in part for the high plasma levels of this peptide. It is increasingly apparent that these changes are independently regulated, but little is known about the mechanisms underlying this regulation. Preliminary results indicate that it is now possible to analyze the early time course or transcription for each gene after the imposition of hemodynamic overload. This should significantly enhance our understanding of the regulatory mechanisms involved in the phenoconversions of the hemodynamically overloaded heart.
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PMID:Switches in cardiac muscle gene expression as a result of pressure and volume overload. 153 97

Atrial natriuretic peptide (ANP)(31-67), a portion of the atrial peptide prohormone, circulates in humans, and its plasma level varies with atrial pressure. Like the more widely studied carboxy-terminal fragment ANP(99-126), ANP(31-67) stimulates natriuresis and diuresis. We examined the mechanism of this natriuresis by measuring the effects of ANP(31-67) on Na+ transport in cells of the rabbit inner medullary collecting duct (IMCD). ANP(31-67) (10(-8) M) caused a 26 +/- 4% inhibition of oxygen consumption (QO2); half-maximal inhibition occurred at 10(-11) M, suggesting a physiologic effect. This effect was not additive with either ouabain or amiloride, suggesting that it reflected inhibition of Na+ transport-dependent QO2. ANP(31-67) reduced the amphotericin-induced stimulation of QO2 consistent with inhibition by this peptide of the Na(+)-K(+)-ATPase. In addition, ANP(31-67) reduced ouabain-sensitive 86Rb+ uptake under Vmax conditions. Several lines of evidence indicated that PGE2, a known endogenous IMCD Na(+)-K(+)-ATPase inhibitor, mediates pump inhibition by ANP(31-67). Thus, ANP(31-67) inhibits Na+ transport by inhibiting the Na(+)-K(+)-ATPase of IMCD cells, an effect mediated by the generation of PGE2.
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PMID:Atrial natriuretic peptide(31-67) inhibits Na+ transport in rabbit inner medullary collecting duct cells. Role of prostaglandin E2. 153 29

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

An increased venous tone responsible for changes in systemic hemodynamics has been described in borderline hypertensive patients along with the release, in response to intravenous sodium chloride, of an endogenous sodium ion/potassium ion adenosine triphosphatase (Na+/K+ ATPase) inhibitor with vasoconstrictive properties. The hemodynamic and humoral effects of a 2-hour intravenous saline infusion were studied in 25 borderline hypertensives characterized on the basis of their forearm venous distensibility (VV30) in normal (n = 15) and low (n = 10) VV30. VV30 was slightly reduced by saline in the entire hypertensive group (1.47 vs 1.36 ml/100 ml; p less than 0.05), whereas blood pressure and plasma Na+/K+ ATPase inhibitor were unchanged. Normal VV30 showed a sudden increase in plasma Na+/K+ ATPase inhibitor in response to saline associated with an increase in blood pressure, a forearm arterial and venous constriction, and a sluggish suppression in plasma renin activity, whereas low VV30 exhibited a completely opposite pattern. The changes in plasma Na+/K+ ATPase inhibitor inversely correlated to VV30 decreases in borderline hypertensives with normal VV30 (r = -0.49; p less than 0.05), whereas they did not in all hypertensive patients. Atrial natriuretic peptide response to saline infusion was delayed in normal VV30 and inversely related to the changes in Na/K+ ATPase inhibitory activity (r = -42; p less than 0.05) attained after 2 hours of infusion in the entire hypertensive population. Results of this study suggest the ability of acute volume expansion to reduce peripheral venous distensibility in borderline hypertensive patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pattern of peripheral venous response to volume expansion in borderline systemic hypertension. 214 96

Transgenic mice expressing atrial natriuretic factor-SV40 T-antigen fusion genes (ANF-TAG) developed cardiac tumors asymmetrically in the right atrium. Features associated with cardiac failure, including increased plasma creatine kinase activity (MM and MB) and ventricular dysrhythmias, also were associated with atrial tumor growth. These atrial tumors were able to grow at histocompatible sites (subcutaneously in syngeneic animals) for protracted periods of time yielding a series of transplantable atrial tumor lineages. The transplantable tumors displayed several cardiac-specific characteristics, such as endogenous electrical activity and expression of cardiac-specific proteins. These transplantable atrial tumors constitute a novel experimental resource for developing cell lines which display an adult cardiac phenotype.
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PMID:Cardiac tumors and dysrhythmias in transgenic mice. 215 Oct 59

Endogenous digoxin-like substance (EDLS) in urine has been considered to be the representative of the natriuretic hormone, the endogenous inhibitor of the sodium pump (the sodium-potassium transporting enzyme Na, K-ATPase). Its site of production remains unknown, and so does its chemical nature. It has been suggested however that EDLS and the atrial natriuretic factor represent two distinct natriuretic system. Although the present work does not provide evidence for EDLS to be a natriuretic hormone, it nevertheless supplies data in support of this hypothesis. In preterm neonates, the decreased sodium excretion during the first days of life is accompanied by a parallel decrease in urinary EDLS excretion. The same was observed in a group of children from the infant period through the age of 12-14 years. Both parameters showed in parallel the lowest values in the oldest children examined. Children aged 8-12 years also showed parallel excretion of sodium and ELDS, even if natriuresis was induced in recumbent position and antinatriuresis in upright position. When the children remained recumbent for 24 h there were no differences in sodium and EDLS excretion between daytime and night. Children involved in adequate physical activities during daytime excreted less sodium and EDLS during the day than at night.
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PMID:Endogenous digoxin-like substance in the urine of newborns and children. 216 33

Transgenic mice expressing atrial natriuretic factor-SV40 T-antigen fusion genes (ANF-TAG) developed unilateral right atrial tumors composed of differentiated dividing cardiomyocytes. The atrial tumors could be propagated as transplantable tumor lineages in syngeneic animals. Cardiomyocytes derived from ANF-TAG atrial tumors did not proliferate in tissue culture. However, cardiomyocytes derived from the transplantable tumor lines proliferated in culture, and these proliferating cardiomyocytes could be passaged in culture and recovered from frozen stocks. Cardiomyocytes from either tumor source were highly differentiated as determined by diverse functional and structural criteria. The cells continued to express numerous cardiac-specific proteins and retained ultrastructural features characteristic of cardiomyocytes including well-formed myofibrils, transverse tubules, and intercalated disks. In addition, the cultured cells displayed spontaneous electrical and contractile activities. These atrial tumor cardiomyocytes are a novel experimental resource for the identification of genes regulating the cardiomyocyte cell cycle.
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PMID:Proliferation in vivo and in culture of differentiated adult atrial cardiomyocytes from transgenic mice. 217 67

The present study evaluated the role of Na+-K+ -ATPase stimulation in the relaxant response to synthetic atrial natriuretic factor (atriopeptin II; ANF) in norepinephrine (0.18 microM)-contracted rabbit aorta. ANF (10(-10)-10(-7) M) produced a concentration-related relaxation of NE-contracted aortic rings. The calculated concentration required to produce 50 per cent relaxation (EC50) was 5 +/- 3 X 10(-9) M. ANF-induced relaxation was significantly attenuated by ouabain (30 microM). Likewise, ANF (10(-7) and 5 X 10(-9) M) elicited significantly less relaxation of aortic rings contracted with norepinephrine in a physiological salt solution containing zero KCl. Nitroprusside-induced relaxation also was attenuated by ouabain and in zero KCl salt solution. The data suggest that synthetic ANF induces relaxation in rabbit aortic rings by a ouabain and KCl sensitive mechanism, presumably Na+-K+ -ATPase.
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PMID:The role of Na+-K+ -ATPase in the vasorelaxant actions of synthetic atrial natriuretic factor. 242 Feb 96

1. These studies were conducted to determine whether preservation of the functional integrity of the membrane, Na+,K+-stimulated ATPase is essential for the atrial natriuretic factor (r-ANF-8-33) to enhance guanosine 3',5'-monophosphate (cGMP) content in the rat aortic smooth muscle. In freshly dissected rat aortic tissues, levels of cGMP were estimated using radioimmunoassay. 2. ANF (0.1 mumol/L in Krebs-Henseleit media) produced significant elevation in cGMP levels in the aortic smooth muscle when compared with that incubated in the control media, whereas suppression of Na+-pump with ouabain (1.0 mmol/L) and/or K+-free media did not produce any significant changes in the basal cGMP level; these two experimental manoeuvres did not prevent enhancement of cGMP by ANF. 3. Incubation of the tissues in the media containing ouabain plus vasoconstrictor concentrations of norepinephrine (0.3 mumol/L) also did not alter basal cGMP levels and did not prevent the ability of ANF to elevate cGMP. 4. These studies demonstrate that the antagonism by ouabain, of vasorelaxant effects of ANF (as reported in the literature) are not due to the prevention of the ability of ANF to enhance cGMP levels in the arterial smooth muscle. It is proposed that such an antagonism may be related to the actions of ouabain and ANF on diverse, and perhaps independent, mechanisms which affect Ca2+-fluxes across the cell membrane.
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PMID:Effects of atrial natriuretic factor on cyclic GMP content in the rat aortic smooth muscle: studies on the role of membrane Na+,K+-ATPase. 255 48

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