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)

The authors have previously shown that atrial natriuretic peptide (ANP) mediates its cellular effects in part by changes in Ca2+ homeostasis in kidney cortex and that Ca2+ + Mg2+ ATPase is linked to ANP receptors, being reciprocally modulated by the guanylate cyclase system. The present study was designed to examine the status of this coupling in diabetes-induced congestive heart failure and the effect of its alterations on the functional integrity of the renal cell. Ca2+ + Mg2+ ATPase and guanylate cyclase were tested in hypertensive-diabetic rats (D + H), which develop congestive heart failure (CHF) at ten weeks following streptozotocin (65 mg/kg) injection and abdominal aortic constriction. The ATPase activity was measured by the release of 32P from [gamma-32P]ATP in the medium. While the guanylate cyclase activity was decreased very rapidly in the hypertensive-diabetic group, the sensitivity of the Ca2+ pump to ANP was increased at an early stage (three weeks) and decreased at a late stage (ten weeks) of CHF. The authors conclude that a defect in coupling between the Ca2+ pump and the ANP-receptor system as observed in the D + H group may contribute to the development of nephropathy and CHF.
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PMID:Renal Ca2+ + Mg2+ ATPase in congestive heart failure due to diabetes. 810 29

Thapsigargin induced endothelium-dependent relaxation and cGMP production in rat thoracic aorta, and these effects were inhibited by nitric oxide (NO) pathway inhibitors, a calmodulin inhibitor and removal of Ca2+, suggesting that NO is involved in the thapsigargin-induced relaxation. Thapsigargin may deplete Ca2+ stores in the endothelial cells by inhibiting the Ca(2+)-ATPase, a Ca2+ pump, which in turn triggers influx of extracellular Ca2+, leading to activation of constitutive NO synthase and resultant NO generation. The NO thus formed may activate soluble guanylate cyclase to produce cGMP in the vascular smooth muscle.
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PMID:Thapsigargin, a Ca(2+)-ATPase inhibitor, relaxes rat aorta via nitric oxide formation. 811 11

The permeability of higher molecular weight substances was investigated in mouse chorioallantoic labyrinthine hemotrichorial placenta, using horseradish peroxidase as a tracer. At the same time, ultrastructural localizations of some important enzymes, such as alkaline phosphatase (ALP), acid phosphatase (ACP), Ca(++)-ATPase and guanylate cyclase were elucidated in this organ by means of the enzyme-cytochemical technique. Peroxidase easily entered the space between layers I and II, and no penetration of this tracer beyond layer II was observed. The reaction products for ALP activity were found mainly on the maternal side of the plasma membrane of the layer II trophoblast. ACP activity was confined to the lysosomes of this layer II cell. In short, peroxidase stopped at the cell surface of the layer II trophoblast, and both ALP and ACP coexisted in this layer II cell. These observations strongly suggest that the layer II trophoblast, especially the surface plasma membrane of this cell, may have an important role in regulating the materno-fetal transfer of substances in mouse chorioallantoic placenta.
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PMID:Studies on the permeability and enzyme-cytochemistry of the mouse hemotrichorial placenta. 813 78

The inner medullary collecting duct (IMCD) is the final arbiter of renal Na+ excretion, and Na+ transport in this segment is controlled by a wide variety of hormones and renal autacoids. This review examines the mechanisms of IMCD Na+ transport and its regulation using results obtained from micropuncture and microcatheterization studies in the intact animal, as well as data from isolated perfused tubules, freshly prepared cell suspensions, and cultured IMCD cells. Where appropriate, results from closely related tissues such as the cortical collecting duct and model urinary epithelia are examined. Na+ reabsorption in this segment occurs predominantly via apical amiloride-sensitive Na+ channels and basolateral Na(+)-K(+)-adenosinetriphosphatase (Na(+)-K(+)-ATPase). Although there is some evidence for the activities of other transporters such as Na(+)-K(+)-2Cl- and Na-Cl cotransporters and Na+/H+ exchanger, their role in Na+ homeostasis remains undefined. Mineralocorticoids augment the activities of both apical Na+ channels and basolateral Na(+)-K(+)-ATPase by a variety of complex mechanisms. Prostaglandin E2 inhibits Na(+)-K(+)-ATPase and appears to mediate the actions of several peptide hormones, including endothelin, interleukin-1, and atrial natriuretic peptide [ANP-(31-67)]. Several peptides in the ANP family [ANP-(99-126), urodilatin, and brain natriuretic peptide] bind to guanylate cyclase-linked receptors, leading to inhibition of apical Na+ channel function. These mechanisms of regulation of IMCD Na+ transport likely play important roles in total body Na+ balance in health and disease.
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PMID:Hormonal regulation of inner medullary collecting duct sodium transport. 836 30

1. Simultaneous recordings of tension and [Ca2+]i during NANC-mediated relaxation were made in the rat anococcygeus muscle under various conditions. 2. In muscles precontracted with guanethidine, nitrergic stimulations at 2 Hz produced a rapid decrease in both the tension and [Ca2+]i. 3. The nitric oxide synthase inhibitor, NG-nitro-L-Arginine (NOLA, 100 mumol/L) completely abolished the decreases in the [Ca2+]i and force response of the NANC-mediated relaxation. 4. Noradrenergic-mediated contractions elicited by electrical field stimulation were potentiated by the addition of NOLA. In the absence of NOLA, the motor responses were larger in magnitude at 10 Hz stimulation than at 2 Hz. After NOLA, both the force response and the associated rise in [Ca2+]i were substantially increased in comparison to the control stimulations. Proportionately the potentiation of the 2 Hz response was of a far greater magnitude than that of the 10 Hz response. 5. The guanylate cyclase inhibitor methylene blue (10 mumol/L), partially inhibited the force and [Ca2+]i response of the NANC relaxation. 6. Following exposure of the muscles to the sarcoplasmic reticulum Ca(2+)-ATPase inhibitor, cyclopiazonic acid, (10 mumol/L) the responses to NANC stimulation were inhibited. The attenuated relaxation response displayed a bi-phasic timecourse and the Ca2+ change in comparison to that of the control was markedly smaller. In some cases, a relaxation was observed with no detectable change in the [Ca2+]i. 7. The results suggest that part of the relaxation response observed with NANC-mediated relaxation in the rat anococcygeus is dependent on Ca2+ sequestration into the sarcoplasmic reticulum. However, other Ca2+ lowering mechanisms and possible Ca2+ independent mechanisms may also contribute to the NANC relaxation response.
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PMID:Force and intracellular Ca2+ during NANC-mediated relaxation of rat anococcygeus muscle and the effects of cyclopiazonic acid. 857 7

In the present study we demonstrated that synaptosomes isolated from rabbit brain cortex contain NO synthase and xanthine oxidase that can be activated by ultraviolet B radiation and Ca2+ accumulation to produce nitric oxide and superoxide which react together to form peroxynitrite. Irradiation of synaptosomes with ultraviolet B (up to 100 mJ/cm2), or increase the intrasynaptosomal calcium concentration using various doses (up to 100 mu M) of the calcium ionophore A 23187, a gradual increase in both nitric oxide and peroxynitrite release that was inhibited by N-monomethyl-L-arginine (100 mu M) was observed. The rate of nitric oxide release and cyclic GMP production by NO synthase and soluble guanylate cyclase, both located in the soluble fraction of synaptosomes (synaptosol), were increased approximately eight fold after treatment of synaptosomes with Ultraviolet B radiation (100 mJ/cm2). In reconstitution experiments, when purified NO synthase isolated from synaptosol was added to xanthine oxidase, in the presence of the appropriate cofactors and substrates, a ten fold increase in peroxynitrite production at various doses (up to 20 mJ/cm2) of UVB radiation was observed. Ultraviolet B irradiated synaptosomes promptly increased malondialdehyde production with subsequent decrease of synaptosomal plasma membrane fluidity estimated by fluorescence anisotropy of 1-4-(trimethyl-amino-phenyl)-6-phenyl-hexa-1 ,3,5-triene. Desferrioxamine (100 mu M) tested in Ultraviolet B-irradiated synaptosomes showed a decrease (approximately 80%) in malondialdehyde production with subsequent restoration of the membrane fluidity to that of non-irradiated (control) synaptosomes. Ca(2+)-stimulated ATPase activity was decreased after Ultraviolet B (100 mJ/cm2) radiation of synaptosomes indicating that the subsequent increase of intrasynaptosomal calcium promoted peroxynitrite production by a calmodulin-dependent increase of NO synthase and xanthine oxidase activities. Furthermore, it was shown that UVB-irradiated synaptosomes were subjected to higher oxidative stress by exogenous peroxynitrite (100 mu M) compared to non-irradiated (control) synaptosomes. In summary, the present results indicate that activation of NO synthase and xanthine oxidase of brain cells lead to the formation of peroxynitrite providing important clues in the role of peroxynitrite as a causative factor in neurotoxicity.
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PMID:NO synthase and xanthine oxidase activities of rabbit brain synaptosomes: peroxynitrite formation as a causative factor of neurotoxicity. 883 24

Atrial natriuretic peptide 99-126 (ANP99-126) or atrial natriuretic factor (ANF) is one of the natriuretic peptides secreted by the heart atria which produces natriuresis, diuresis and vasodilation. We examined the influence of this hormone on Na+, K(+)-ATPase activity in rat renal medulla. We found that infusion of ANF (0.087-0.26 nmol/kg/min) caused dose-dependent inhibition of medullary Na+, K(+)-ATPase activity without affecting cortical Na+, K(+)-ATPase. This inhibition was mimicked by synthetic analogue of cyclic guanosine 3',5' monophosphate, 8-bromo-cGMP. Inhibitors of phosphodiesterase (papaverine and IBMX) also reduced Na+, K(+)-ATPase activity. This enzyme was also inhibited by the activator of soluble guanylate cyclase sodium nitroprusside. The effect of ANF, sodium nitroprusside and 8-bromo-cGMP was blocked by the specific inhibitor of protein kinase G-KT5823. The inhibitor of protein phosphatases, okadaic acid mimicked the effect of ANF and if administered together with this hormone, augmented and prolonged its action. These results suggest that ANF decreases Na+, K(+)-ATPase activity in renal medulla through cGMP-protein kinase G dependent mechanism.
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PMID:The mechanism of Na+, K+-ATPase inhibition by atrial natriuretic factor in rat renal medulla. 967 Jan 10

Mobilization of intracellular Ca2+ stores is coupled to Ca2+ influx across the plasma membrane, a process termed capacitative Ca2+ entry. Capacitative Ca2+ entry was examined in cultured guinea pig enteric glia exposed to 100 microM ATP, an inositol trisphosphate-mediated Ca2+-mobilizing agonist, and to 1 microM thapsigargin, an inhibitor of microsomal Ca2+ ATPase. Both agents caused mobilization of intracellular Ca2+ stores followed by influx of extracellular Ca2+. This capacitative Ca2+ influx was inhibited by Ni2+ (88 +/- 1%) and by La3+ (87 +/- 1%) but was not affected by L- or N-type Ca2+ channel blockers. Pretreatment of glia with 100 nM phorbol 12-myristate 13-acetate for 24 h decreased capacitative Ca2+ entry by 48 +/- 2%. Chelerythrine (0.1-10 microM), a specific antagonist of protein kinase C (PKC), dose dependently inhibited capacitative Ca2+ entry. The nitric oxide synthase inhibitor NG-nitro-L-arginine (1 mM) decreased Ca2+ influx by 42 +/- 1%. Capacitative Ca2+ entry was inhibited to a similar degree by the guanylate cyclase inhibitor (1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one). Capacitative Ca2+ entry occurs in enteric glial cells via lanthanum-inhibitable channels through a process regulated by PKC and nitric oxide.
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PMID:Capacitative Ca2+ entry in enteric glia induced by thapsigargin and extracellular ATP. 972 68

The effect of nitric oxide radicals (NO) on the activity of porcine aortic endothelial Na(+)-K(+)-ATPase is reported. Measurements were made using an in vitro cell system and 133Cs magnetic resonance (NMR). It is shown that NO, through stimulation of guanylate cyclase, results in a reduction of pump activity. Similar observations were made using 8-Br-cGMP. Measurement of the cytosolic volume indicated no changes in volume during incubation with 8-Br-cGMP. Our measurements indicate a continuous regulation of endothelial Na(+)-K(+)-ATPase activity by endogenous NO. This regulation could be removed by L-NAME, resulting in a small increase in pump activity.
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PMID:Short-term regulation of endothelial Na(+)-K(+)-pump activity by cGMP: a 133Cs magnetic resonance study. 1008 5

Using the method of isometric tension measurement in isolated blood vessels, we investigated some mechanisms of action of high calcium concentrations (>3 mM) on the mechanical activity of small branches of the rat mesenteric artery. Calcium in concentrations up to 30 mM caused relaxation of the arteries (calcium relaxation). The amplitude of the effect decreased in the presence of ouabain (10(-4) M), tetraethylammonium (10(-3) M), charibdotoxin (10(-7) M) and in the potassium-free external solution in intact and denuded rings. Glibenclamide (10(-6) M), 4-aminopyridine (10(-3) M), barium (10(-3) M) and cesium (2.10(-2) M) were inefficient. Calcium relaxation of intact vessels was impaired in the presence of N(omega)-nitro-L-arginine (10(-4) M) or methylene blue (10(-4) M) but not in the presence of indomethacin (10(-5) M). The attenuation of calcium relaxation to the same extent was observed in denuded mesenteric arteries. We conclude that calcium can cause relaxation of vascular smooth muscle cells by two mechanisms. The first is mediated via the cell membrane hyperpolarization due to the activation of Na+/K(+)-ATPase and Ca(2+)-activated potassium channels. The second mechanism is endothelium-mediated and depends on the nitrogen monoxide-guanylate cyclase pathway.
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PMID:Mechanisms of vascular wall calcium relaxation. 1036 63

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