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 calcium release-activated channel (CRAC) opened in Jurkat cells activated either with CD3 monoclonal antibody or the endoplasmic reticulum Ca2(+)-ATPase blocker, thapsigargin, is blocked by La3+ with an IC50 of 20 nM. Similarly, the entry of Mn2+, used as a surrogate for Ca2+, is also blocked by submicromolar La3+ concentrations. La3+ seems to play its role simply by plugging the CRAC because this ion does not penetrate the cells, as demonstrated by chelation experiments with EGTA. Blocking the Ca2+ influx in activated Jurkat cells results in a lack of expression of CD25, a chain of the interleukin-2 receptor and of CD69, a marker of T-cell activation. By contrast, the very early steps of the T-cell signalling pathway such as the release of Ca2+ from intracellular stores and the subsequent inhibition of phosphatidylserine synthesis are not affected by La3+.
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PMID:Submicromolar La3+ concentrations block the calcium release-activated channel, and impair CD69 and CD25 expression in CD3- or thapsigargin-activated Jurkat cells. 861 Nov 74

Because the role of intracellular Ca2+ in the two-signal process for the induction of nitric oxide (NO) synthesis is controversial, this study was undertaken to examine the role of Ca2+ in the transcriptional regulation of inducible NO synthase (iNOS) in murine peritoneal macrophages. Treatment of the cells with thapsigargin (TG) or 2,5-di-(t-butyl)-1,4-benzodihydroquinone (tBuBHQ), which are the specific and potent Ca(2+)-ATPase inhibitors of endoplasmic reticulum (ER), showed modest effects on tumoricidal function, whereas TG or tBuBHQ in combination with interferon-gamma (IFN-gamma) or lipopolysaccharide (LPS) showed marked effects on tumoricidal function of the cells. The tumoricidal effects of the activated macrophages were correlated with the amount of NO synthesis, and totally abrogated by the use of NOS inhibitor, NG-monomethyl-L-arginine (NGMMA). The increases in NO synthesis was reflected as increased amounts of iNOS mRNA by Northern blotting. To confirm that iNOS induction was due to the changes in the intracellular Ca2+ level, the acetoxymethyl ester of 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid (BAPTA-AM), an intracellular Ca2+ chelator, was used. Blocking the increase of cytosolic free Ca2+ significantly decreased the induction of NO synthesis. To demonstrate that intracellular Ca2+ acts as a 'priming' signal rather than a 'triggering' signal on the induction of NO synthesis by murine peritoneal macrophages, we designed several experiments. When the cells were treated with TG 6 hr after the treatment with IFN-gamma, there was no increase in NO synthesis. In addition, when the cells were treated with TG or LPS 6 hr after treatment with tBuBHQ, a synergistic increase on NO synthesis was shown only in the case of LPS. When phorbol 12-myristate 13-acetate (PMA), a protein kinase C (PKC) activator, was added to the cells 6 hr after the treatment with TG, there was a marked co-operative induction of NO synthesis, even though PMA alone has no effect. Based on the results obtained in this study, we suggest that cytosolic Ca2+ might be enough for the expression of iNOS gene as a priming signal and PKC might be involved in the induction of NO synthesis as a triggering signal by post-transcriptional modification of iNOS mRNA or iNOS itself in the activated murine peritoneal macrophages.
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PMID:Role of intracellular calcium as a priming signal for the induction of nitric oxide synthesis in murine peritoneal macrophages. 869 94

Epidermal Langerhans cells are known to be the major controlling element in the development of contact hypersensitivity. Haptenic molecules permeating the skin are taken up locally by Langerhans cells and then presented to T lymphocytes in the regional lymph nodes. Despite the presence of functional Langerhans cells, however, subsensitizing doses of hapten applied epicutaneously induce tolerance. We examined epidermal Langerhans cells at the site of contact with picryl chloride or oxazolone in BALB/c and C57B1/6 mice with regard to their responding to either subsensitizing or sensitizing doses of allergen. Subsensitizing doses did not interfere with the membranous adenosine triphosphatase system on Langerhans cells, known to relate to functional readiness of the cell. Accordingly, on electron microscopy the ultrastructure of Langerhans cells was found to be like that in untreated skin. In contrast, sensitizing doses caused a significant depletion of adenosine triphosphatase-positive Langerhans cells, and electron microscopy revealed marked cellular activation of Langerhans cells, with enlarged nuclei and increased numbers of mitochondria and Birbeck granules. Furthermore, subsensitizing doses induced tolerance regardless of whether Langerhans cells were functionally intact or had their function blocked arbitrarily. Blocking was achieved either by preceding ultraviolet B irradiation at the site of application or by painting of a sensitizer before painting another sensitizer on the same site. Moreover, not even surgical removal of the site within minutes after painting could prevent the induction of tolerance. The data suggest that subsensitizing doses of contact allergens painted on normal murine skin bypass involvement of epidermal Langerhans cells.
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PMID:Induction of low zone tolerance to contact allergens in mice does not require functional Langerhans cells. 875 70

1. We determined the intracellular Na+ concentration ([Na+]i) and mechanisms of its regulation in cultured rat hippocampal astrocytes using fluorescence ratio imaging of the Na+ indicator SBFI-AM (acetoxymethylester of sodium-binding benzofuran isophthalate, 10 microM). Dye signal calibration within the astrocytes showed that the ratiometric dye signal changed monotonically with changes in [Na+]i from 0 to 140 nM. The K+ sensitivity of the dye was negligible; intracellular pH changes, however, slightly affected the 'Na+' signal. 2. Baseline [Na+]i was 14.6 +/- 4.9 mM (mean +/- S.D.) in CO2/HCO3(-)-containing saline with 3 mM K+. Removal of extracellular Na+ decreased [Na+]i in two phases: a rapid phase of [Na+]i reduction (0.58 +/- 0.32 mM min-1) followed by a slower phase (0.15 +/- 0.09 mM min-1). 3. Changing from CO2/HCO3(-)-free to CO2/HCO3(-)-buffered saline resulted in a transient increase in [Na+]i of approximately 5 mM, suggesting activation of inward Na(+)-HCO3- cotransport by CO2/HCO3-. During furosemide (frusemide, 1 mM) or bumetanide (50 microM) application, a slow decrease in [Na+]i of approximately 2 mM was observed, indicating a steady inward transport of Na+ via Na(+)-K(+)-2Cl- cotransport under control conditions. Tetrodotoxin (100 microM) did not influence [Na+]i in the majority of cells (85%), suggesting that influx of Na+ through voltage-gated Na+ channels contributed to baseline [Na+]i in only a small subpopulation of hippocampal astrocytes. 4. Blocking Na+, K(+)-ATPase activity with cardiac glycosides (ouabain or strophanthidin, 1 mM) or removal of extracellular K+ led to an increase in [Na+]i of about 2 and 4 mM min-1, respectively. This indicated that Na+, K(+)-ATPase activity was critical in maintaining low [Na+]i in the face of a steep electrochemical gradient, which would favour a much higher [Na+]i. 5. Elevation of extracellular K+ concentration ([K+]o) by as little as 1 mM (from 3 to 4 mM) resulted in a rapid and reversible decrease in [Na+]i. Both the slope and the amplitude of the [K+]o-induced reductions in [Na+]i were sensitive to bumetanide. A reduction of [K+]o by 1 mM increased [Na+]i by 3.0 +/- 2.3 mM. In contrast, changing extracellular Na+ concentration by 20 mM resulted in changes in [Na+]i of less than 3 mM. 6. These results implied that in hippocampal astrocytes low baseline [Na+]i is determined by the action of Na(+)-HCO3- cotransport, Na(+)-K(+)-2Cl- cotransport and Na+, K(+)-ATPase, and that both Na+, K(+)-ATPase and inward Na(+)-K(+)-2Cl cotransport are activated by small, physiologically relevant increases in [K+]o. These mechanisms are well suited to help buffer increases in [K+]o associated with neural activity.
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PMID:Intracellular sodium homeostasis in rat hippocampal astrocytes. 886 55

Isolated frog skin epithelium, mounted in an Ussing chamber and bathed in standard NaCl Ringer solution, recycles K+ across the basolateral membrane of principal cells through an inward-rectifier K+ channel (Kir) operating in parallel with a Na+-K+-ATPase pump. Here we report on the metabolic control of the Kir channel using patch clamping, short-circuit current measurement and enzymatic determination of cellular (ATP (ATPi). 2. The constitutively active Kir channel in the basolateral membrane has the characteristics of an ATP-regulated K+ channel and is now classed as a KATP channel. In excised inside-out patches the open probability (Po) of KATP channels was reduced by ATPi with half-maximum inhibition at an ATPi concentration of 50 microM. 3. ATPi measured (under normal Na+ transport conditions) with luciferin-luciferase was 1.50 +/- 0.23 mM (mean +/- S.E.M.; range, 0.4-3.3 mM n = 11). Thus the KATP channel would be expected to be inactive in intact cells if ATPi was the sole regulator of channel activity. KATP channels which were inactivated by 1 mM ATPi in excised patches could be reactivated by addition of 100 microM ADP on the cytosolic side. When added alone, ADP blocks this channel with half-maximal inhibition at [ADPi] > 5 mM. 4. Sulphonylureas inhibit single KATP channels in cell-attached patches as well as the total basolateral K+ current measured in frog skin epithelia perforated with nystatin on the apical side. 5. Na+-K+-ATPase activity is a major determinant of cytosolic ATP. Blocking the pump activity with ouabain produced a time-dependent increase in ATPi and reduced the open probability of KATP channels in cell-attached membranes. 6. We conclude that the ratio of ATP/ADP is an important metabolic coupling factor between the rate of Na+-K+ pumping and K+ recycling.
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PMID:Cross-talk between ATP-regulated K+ channels and Na+ transport via cellular metabolism in frog skin principal cells. 901 25

The mechanism by which adenosine accumulates in the hippocampal slice during energy deprivation was investigated by examining the adenosine A1 receptor mediated depression of synaptically evoked field potentials in the CA1 area. Blocking of the mitochondrial electron transport chain with 200 microM sodium cyanide or mitochondrial uncoupling with 50 microM 2,4-dinitrophenol both produced a rapid depression of synaptic transmission that was antagonised by 1 microM 8-cyclopentyl-1, 3-dimethylxanthine, an adenosine A1 receptor antagonist. Cellular ATPase inhibition or elevation of cytosolic phosphocreatine failed to alter the 2,4-dinitrophenol induced depression of synaptic transmission. Attempts to block mitochondrial ATP synthesis with 3 microM oligomycin or 75 microM atractyloside did not cause depression of synaptic transmission. 100 microM iodotubercidin, an adenosine kinase inhibitor, alone produced a depression of synaptic transmission that was completely reversed by 1 microM 8-cyclopentyl-1,3-dimethylxanthine; however, a simultaneous or independent episode of hypoxia surmounted the adenosine A1 receptor antagonism and produced approximately 50% depression of synaptic transmission. Depression of synaptic transmission by hypoxia, cyanide or 2,4-dinitrophenol is a result of rapid adenosine accumulation and activation of extracellular adenosine A1 receptors. Although this early depression of synaptic transmission is a consequence of inhibition of normal mitochondrial function, it is not a result of depletion of cytosolic ATP, since attempts to preserve ATP did not maintain synaptic transmission during mitochondrial poisoning, and inhibitors of oxidative phosphorylation did not produce synaptic depression.
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PMID:Mechanism of adenosine accumulation in the hippocampal slice during energy deprivation. 901 69

The contribution of ATP-generating systems to Na+ pump (Na+-K+-ATPase) function was studied in Xenopus laevis A6 kidney epithelia apically permeabilized with digitonin. The ouabain-inhibitable Na+ pump current (I(P)) was measured in the presence of otherwise impermeant inhibitors and/or substrates at Na+ and K+ concentrations that allowed near-maximal pump function. Confocal fluorescence microscopy after apical addition of sulfosuccinimidobiotin (molecular weight of 443) showed that all cells were permeabilized. Less than 15% of the endogenous lactate dehydrogenase and creatine kinase (CK) were released into the apical medium. The I(P) was approximately 5 microA/cm2 in the presence of D-glucose. Blocking glycolysis with 2-deoxy-D-glucose or oxidative phosphorylation with antimycin A decreased it by > or = 50%. Exogenously added ATP prevented these decreases fully or partially, respectively. Two CK isoforms were detected, one likely being mitochondrial and the other corresponding to mammalian B isoform of CK. Phosphocreatine partially restored Na+ pump activity during inhibition of either ATP synthesis pathway. In conclusion, the ATP used by Na+ pumps of apically digitonin-permeabilized A6 epithelia is generated to a similar extent by glycolysis and oxidative phosphorylation. The CK system can partially support the ATP supply to the Na+ pumps.
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PMID:Metabolic support of Na+ pump in apically permeabilized A6 kidney cell epithelia: role of creatine kinase. 912 14

Sodium is absorbed in considerable amounts across the ruminal epithelium, whilst its transport is strongly interrelated with the permeation of chloride and short-chain fatty acids (SCFAs). However, regulation of ruminal Na+, Cl-, and SCFA absorption is hardly understood. The present study was therefore performed to characterize the influence of cAMP on sodium and sodium-coupled transport mechanisms in short-circuited, stripped ruminal epithelia of sheep. Elevation of intracellular cAMP concentrations by theophylline (10 mM) or theophylline in combination with forskolin (0.1 mM) significantly reduced mucosal-to-serosal sodium transport, leading to a reduction of net transport. The theophylline- or theophylline-forskolin-induced reduction of sodium transport was accompanied by a decrease in chloride net transport but revealed no effect on propionate flux. Short-chain fatty acids stimulated Na+ transport but their stimulatory effect was almost completely blocked by theophylline-forskolin. In solutions with and without SCFAs, the inhibitory effect of 1 mM amiloride on sodium transport was strongly reduced after theophylline-forskolin pretreatment of the tissues. Blocking the production of endogenous prostaglandins by addition of indomethacin (10 microM) led to a theophylline-sensitive stimulation of unidirectional and net fluxes of sodium. The findings indicate that apical, amiloride-sensitive Na+-H+ exchange and/or basolateral Na+-K+-ATPase can effectively be blocked by cAMP, leading to a decrease in sodium and chloride transport. In the ruminal epithelium, cAMP is a second messenger of prostaglandins, which are released spontaneously under in vitro conditions.
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PMID:Regulatory role of cAMP in transport of Na+, Cl- and short-chain fatty acids across sheep ruminal epithelium. 1022 74

No methods are currently available for fully reliable monitoring of membrane potential changes in suspensions of walled cells such as yeast. Our method using the Nernstian cyanine probe diS-C3(3) monitors even relatively fast changes in membrane potential delta psi by recording the shifts of probe fluorescence maximum lambda max consequent on delta psi-dependent probe uptake into, or exit from, the cells. Both increased [K+]out and decreased pHout, but not external NaCl or choline chloride depolarise the membrane. The major ion species contributing to the diS-C3(3)-reported membrane potential in S. cerevisiae are thus K+ and H+, whereas Na+ and Cl- do not perceptibly contribute to measured delta psi. The strongly pHout-dependent depolarisation caused by the protonophores CCCP and FCCP, lack of effect of the respiratory chain inhibitors rotenone and HQNO on the delta psi, as well as results obtained with a respiration-deficient rho- mutant show that the major component of the diS-C3(3)-reported membrane potential is the delta psi formed on the plasma membrane while mitochondrial potential forms a minor part of the delta psi. Its role may be reflected in the slight depolarisation caused by the F1F0-ATPase inhibitor azide in both rho- mutant and wildtype cells. Blocking the plasma membrane H(+)-ATPase with the DMM-11 inhibitor showed that the enzyme participates in delta psi build-up both in the absence and in the presence of added glucose. Pore-forming agents such as nystatin cause a fast probe entry into the cells signifying membrane damage and extensive binding of the probe to cell constituents reflecting obviously disruption of ionic balance in permeabilised cells. In damaged cells the probe therefore no longer reports on membrane potential but on loss of membrane integrity. The delta psi-independent probe entry signalling membrane damage can be distinguished from the potential-dependent diS-C3(3) uptake into intact cells by being insensitive to the depolarising action of CCCP.
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PMID:Factors and processes involved in membrane potential build-up in yeast: diS-C3(3) assay. 1039 18

We demonstrate that a mucoid, alginate-producing strain of Pseudomonas aeruginosa isolated from the lungs of a cystic fibrosis (CF) patient secretes multiple enzymes with nucleoside diphosphate kinase (Ndk), ATPase, adenylate kinase, 5'-nucleotidase, and ATP-modifying enzymatic activities. The secretion is triggered at high cell density and in complex media but is greatly reduced when the mucoid cells are grown in mineral salts media or in presence of 5.0 mM Ca2+ or Mg2+. Interestingly, the secretion is triggered primarily in the mucoid CF isolate of strain 8821M (or in strain FRD1) but not in a nonmucoid laboratory strain, PAO1. The purified secreted Ndk shows 100% match in its N-terminal amino acid sequence with that of purified intracellular Ndk and demonstrates similar enzymatic properties. The N-terminal sequence of the purified ATPase isolated from an ndk knockout mutant shows its identity with that of the heat shock chaperonin Hsp60. During fractionation, the flowthrough fraction from a Mono Q column demonstrates the presence of 5'-nucleotidase, adenylate kinase, and a putative ATP reductase activity. These fractions demonstrate high cytotoxic activities for murine peritoneal primary macrophages which can be further stimulated in the presence of ATP or inhibited by pretreatment of macrophages with oxidized ATP (oATP). The cytotoxicity associated with ATP-induced stimulation is believed to be due to activation of macrophage surface-associated P2Z (P2X7) receptors, which are one of the purinergic receptors responsible for pore formation on macrophage membrane. Blocking of these receptors by pretreatment with oATP blocks ATP-induced macrophage cell death. Thus mucoid P. aeruginosa cells elaborate enzymes that modulate the external ATP levels of macrophages, thereby modulating macrophage cell death through P2Z receptor activation. Evidence for the presence of secreted cytotoxic agents that act independently of P2Z receptor activation is also presented.
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PMID:P2Z-Independent and P2Z receptor-mediated macrophage killing by Pseudomonas aeruginosa isolated from cystic fibrosis patients. 1049

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