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)

Treatment of rat brain slices with veratrine and monensin decreased (Na+ + K+)-ATPase activity in the membranes in a dose-dependent manner. The effect of monensin, like that of veratrine, was accompanied by a decrease of maximal binding sites for ouabain. The inhibitory effect of monensin on the enzyme activity was dependent on external Ca2+ at low concentrations, but not at a high concentration. The decreased enzyme activity induced by monensin was restored by subsequent incubation of the slices in a Ca(2+)-free medium containing 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid tetraacetoxymethyl ester (BAPTA-AM), a chelator of intracellular Ca2+. The effect of monensin at a low concentration on enzyme activity was antagonized by amiloride (1 mM), bepridil (5 microM), quinacrine (30 microM) or verapamil (30 microM), but not by nifedipine (1 microM) or omega-conotoxin (1 microM). Furthermore, the inhibitory effect of monensin at a high concentration under Ca(2+)-free conditions was blocked by BAPTA-AM (30 microM) and by bepridil (100 microM) or diazepam (500 microM), inhibitors of mitochondrial Na(+)-Ca2+ exchange. Inhibitors of calmodulin, protein kinase C, phospholipase A2 and calpain did not affect the monensin-induced decrease of enzyme activity. Dithiothreitol (10 mM) blocked the effect of monensin on enzyme activity but did not affect the ionophore-induced influx of Ca2+ in the slices.
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PMID:Na+ influx-induced decrease of (Na+ + K+)-ATPase activity in rat brain slices: role of Ca2+. 166 55

Several lines of experimental evidence obtained over the last decade indicate that alterations in the alpha 1-adrenergic receptor system may contribute significantly to arrhythmogenesis in the ischaemic heart. Under normal physiological conditions, alpha 1-adrenergic stimulation of myocytes elicits a modest increase in inotropy, a lengthening of repolarization secondary to a decrease in IK through activation of protein kinase C, and a decrease in automaticity in Purkinje cells due to an increase in Na+/K+ ATPase activity. These findings suggest that alpha 1-adrenergic stimulation of the myocardium would elicit an antiarrhythmic effect. However, during both early ischaemia and reperfusion there is an enhanced responsivity to alpha-adrenergic stimulation and a potent antiarrhythmic effect of alpha 1-adrenergic blockade in several species including the conscious dog. This enhanced alpha-adrenergic responsivity may be due to an increase in alpha 1-adrenergic receptors in ischaemic myocardium originating from a site distinct from the intracellular site for trafficking of beta-adrenergic receptors, possibly within or near the sarcolemma. Recently, we developed an isolated adult canine ventricular myocyte preparation which also exhibits a 2- to 3-fold reversible increase in alpha 1-adrenergic receptors in response to severe hypoxia (PO2 = less than 15 mmHg) associated with marked sarcolemmal accumulation of long-chain acylcarnitines (LCA) secondary to hypoxia-induced inhibition of beta-oxidation of fatty acids. The increase in alpha 1-adrenergic receptors is prevented by inhibition of carnitine acyltransferase I which precludes accumulation of LCA. The sarcolemmal accumulation of LCA increases membrane fluidity, suggesting that the alpha 1-adrenergic receptor may be latent within or near the sarcolemma and becomes accessible to a surface ligand only as membrane fluidity is altered. This conclusion is also supported by our findings that hypoxia elicits a marked increase in the coupling of the alpha 1-adrenergic receptor to inositol 1,4,5-trisphosphate (IP3) production in canine myocytes exposed to norepinephrine. IP3 has been shown to mobilize Ca2+ from the sarcoplasmic reticulum, thereby modulating the levels of intracellular Ca2+. Stimulation of hypoxic myocytes with norepinephrine also results in the appearance of delayed after-depolarizations and triggered rhythms, probably in response to an increase in intracellular Ca2+. In conclusion, these findings indicate that the alpha 1-adrenergic system can contribute to arrhythmogenesis in the ischaemic heart and that approaches to reduce the incidence of sudden cardiac death should include blockade of alpha 1-adrenergic receptors.
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PMID:Alpha 1-adrenergic system and arrhythmias in ischaemic heart disease. 166 58

Research on palytoxin focuses on its action as a tumor promoter and its ionophoretic action in cell membranes. The first property is unusual because palytoxin is not a protein kinase C activator. The second property is remarkable in that it may require interaction with the Na(+)-K(+)-adenosinetriphosphatase (ATPase). Our studies here with palytoxin exposure to the LLC-PK1 renal epithelial cells have yielded the following results: 1) unlike protein kinase C-activating tumor promoters (tetradecanoylphorbol 12,13-acetate or teleocidin), palytoxin does not produce a specific effect on the tight junctions between epithelia; 2) palytoxin instead produces an irreversible cytotoxic effect characterized by a pronounced cell swelling associated with sharply elevated levels of intracellular Na+ and decreased levels of intracellular K+; 3) these fluctuations in intracellular Na+ and K+ levels are explained by marked elevations in the membrane flux of 22Na+ and 86Rb+; 4) the electrophysiological reflection of these altered ion fluxes is a pronounced depolarization of the cell sheet if palytoxin is presented to the basolateral cell surface and a pronounced hyperpolarization (due to sharply elevated apical Na+ flux and transepithelial short-circuit current) if palytoxin is administered apically; 5) the apical effect of palytoxin can be blocked by apical ouabain; and 6) this apical effect of palytoxin decreases as a function of the age of the cell sheet. This first report of palytoxin action in a polar epithelial cell system provides additional evidence for palytoxin effects being mediated by contact with the Na(+)-K(+)-ATPase. It also adds to a growing literature suggesting the existence of Na(+)-K(+)-ATPase in the apical cell surface of epithelia under certain conditions.
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PMID:Effects of apical vs. basolateral palytoxin on LLC-PK1 renal epithelia. 167 41

Colony stimulating factor-1 (CSF-1) stimulates DNA synthesis in quiescent murine bone marrow-derived macrophages (BMM). CSF-1 action has been shown to involve activation of the CSF-1 receptor kinase. The protein kinase C activator, 12-O-tetradecanoylphorbol 13-acetate (PMA), is itself weakly mitogenic and synergises with CSF-1 for stimulation of BMM DNA synthesis suggesting a possible role for protein kinase C in the stimulation of BMM DNA synthesis. In this report we show that several agents which raise intracellular cAMP (8-bromoadenosine 3':5'-cyclic monophosphate, 3-isobutyl-1-methylxanthine, cholera toxin, and prostaglandin E2) reversibly inhibit DNA synthesis in BMM induced by CSF-1, granulocyte macrophage-colony stimulating factor, interleukin-3, and PMA. The suppressive action of cAMP elevation on the proliferative response to CSF-1 can be manifested even late in the G1 phase of the cell cycle. Several CSF-1-stimulated earlier responses, viz. protein synthesis, Na+/H+ exchange, Na+,K(+)-ATPase and c-myc-mRNA expression, were not inhibited thus showing a striking difference from some other cellular systems involving growth factor-mediated responses. c-fos-mRNA levels were raised and stabilized by the cAMP-elevating agents, and this modulation was not altered by CSF-1. Thus, the signaling pathways in the macrophages involving tyrosine kinase and protein kinase C activation are associated with increased proliferation while those involving elevation of cAMP (and presumably activation of cAMP-dependent protein kinases) appear to have an inhibitory effect.
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PMID:Inhibition of the signaling pathways for macrophage proliferation by cyclic AMP. Lack of effect on early responses to colony stimulating factor-1. 168 93

1. The role of protein kinase C (PKC) in agonist-induced contractions of guinea-pig ileum longitudinal smooth muscle has been investigated. 2. The phorbol esters, phorbol 12,13-dibutyrate (PDBu), phorbol 12,13-diacetate (PDA) and phorbol 12-myristate 13-acetate (PMA), relaxed tissues precontracted by submaximal concentrations of carbachol, histamine or substance P. 3. This inhibitory action of the phorbol esters was reversed following the application of ouabain, a specific inhibitor of Na(+)-K(+)-ATPase. Similarly, pretreatment with ouabain inhibited the ability of phorbol esters to relax tissues precontracted by the above agonists. 4. The slow relaxation of the tonic component of contraction induced by submaximal concentrations of carbachol and histamine, and all concentrations of substance P, was abolished in the presence of ouabain. 5. In Na(+)-loaded tissues, PDBu and carbachol caused a concentration-dependent increase of Na(+)-K(+)-ATPase activity, assessed by ouabain-sensitive 86Rb(+)-uptake. Extrusion of Na+, assessed by the cellular content of the ion, was also stimulated by PDBu (the effect of carbachol was not investigated). 6. We conclude that phorbol esters inhibit the tonic component of contractions induced by submaximal concentrations of these agonists through activation of Na(+)-K(+)-ATPase. We suggest that PKC may exert feedback control over the tonic component of agonist contractions through stimulation of the pump.
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PMID:Phorbol esters inhibit smooth muscle contractions through activation of Na(+)-K(+)-ATPase. 169 73

A protein of apparent Mr = 15,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis is the major plasma membrane substrate for cAMP-dependent protein kinase (PK-A) and protein kinase C (PK-C) in several different tissues. In the work described here, we purified, cloned, and sequenced the canine cardiac sarcolemmal "15-kDa protein." The amino terminus of the purified protein was not blocked, allowing determination of 50 consecutive residues by standard Edman degradation. Overlapping proteolytic phosphopeptides yielded 22 additional residues at the carboxyl terminus. Dideoxy sequencing of the full-length cDNA confirmed that the 15-kDa protein contains 72 amino acids, plus a 20-residue signal sequence. The mature protein has a calculated Mr = 8409. There is one hydrophobic membrane-spanning segment composed of residues 18-37. The acidic amino-terminal end (residues 1-17) of the protein is oriented extracellularly, whereas the basic carboxyl-terminal end (residues 38-72) projects into the cytoplasm. The positively charged carboxyl terminus contains the phosphorylation sites for PK-A and PK-C. In the transmembrane region, the 15-kDa protein exhibits 52% amino acid identity with the "gamma" subunit of Na,K-ATPase. High stringency Northern blot analysis revealed that 15-kDa mRNA is present in heart, skeletal muscle, smooth muscle, and liver but absent from brain and kidney. We propose the name "phospholemman" for the 15-kDa protein, which denotes the protein's location within the plasma membrane and its characteristic multisite phosphorylation.
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PMID:Purification and complete sequence determination of the major plasma membrane substrate for cAMP-dependent protein kinase and protein kinase C in myocardium. 171 Feb 17

Thapsigargin, a non-phorbol-ester-type tumor promoter, discharges intracellular Ca2+ stores by specific inhibition of the endoplasmic reticulum Ca(2+)-ATPase. We used this drug to analyze the involvement of Ca2+ and Ca(2+)-ATPases in the control of growth- and transformation-related genes. Here we show that treatment of mouse NIH 3T3 fibroblasts with thapsigargin induced rapid expression of the c-fos and c-jun protooncogenes. Inhibition or depletion of protein kinase C partially diminished the c-fos but not the c-jun response. Furthermore, thapsigargin could synergize with the tumor promoter phorbol 12-myristate 13-acetate to induce c-fos but not c-jun. However, thapsigargin had no effect on basal or phorbol ester-induced protein kinase C activity. Our results indicate that Ca2+ is a potent second messenger that controls expression of growth- and transformation-related genes. Since inhibition of the endoplasmic reticulum Ca(2+)-ATPase results in a strong induction of these genes, our data suggest that this Ca2+ pump may act as a negative regulator of cell growth.
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PMID:Regulation of c-fos and c-jun protooncogene expression by the Ca(2+)-ATPase inhibitor thapsigargin. 171 85

The rate of metabolic acid generation by neutrophils increases greatly when they are activated. Intracellular acidification is prevented in part by Na+/H+ exchange, but a sizable component of H+ extrusion persists in the nominal absence of Na+ and HCO3-. In this report we determined the contribution to H+ extrusion of a putative H+ conductive pathway and its mode of activation. In unstimulated cells, H+ conductance was found to be low and unaffected by depolarization. An experimental system was designed to minimize the metabolic acid generation and membrane potential changes associated with neutrophil activation. By using this system, beta-phorbol esters were shown to increase the H+ (equivalent) permeability of the plasma membrane. The direction of the phorbol ester-induced fluxes was dictated by the electrochemical H+ gradient. Moreover, the parallel migration of a counterion through a rheogenic pathway was necessary for the displacement of measurable amounts of H+ equivalents across the membrane. These findings suggest that the H+ flux is conductive. The effect of beta-phorbol esters was mimicked by diacylglycerol and mezerein and was blocked by staurosporine, whereas alpha-phorbol esters were ineffective. Together, these findings indicate that stimulation of protein kinase C induces the activation of an H+ conductance in the plasma membrane of human neutrophils. Preliminary evidence for activation of a separate, bafilomycin A1-sensitive H+ extrusion mechanism, likely a vacuolar type H(+)-ATPase, is also presented.
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PMID:Protein kinase C activates an H+ (equivalent) conductance in the plasma membrane of human neutrophils. 172 May 52

A crude cytosolic fraction prepared from bovine brain contained protein kinase C, as shown by immunoblotting, but its activity was undetectable, suggesting the presence of interfering factors. Phosphatase, ATPase and protease activities did not account for the absence of detectable protein kinase C activity. The major contributing factor was found to be a heat-labile protein which was separated from the kinase by ion-exchange chromatography. The contribution to the total inhibitory activity of heat-stable proteins was relatively minor, suggesting that they may not function physiologically as protein kinase C inhibitors.
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PMID:The major endogenous bovine brain protein kinase C inhibitor is a heat-labile protein. 175 72

Purified Ca(2+)-stimulated, Mg(2+)-dependent ATPase (Ca(2+)-ATPase) from human erythrocytes was phosphorylated with a stoichiometry of about 1 mol of phosphate/mol of ATPase at both threonine and serine residues by purified rat brain type III protein kinase C. In the presence of calmodulin, the phosphorylation was markedly reduced. Labeled phosphate from [gamma-32P]ATP was retained on an 86-kDa calmodulin-binding tryptic fragment of Ca(2+)-ATPase but not on 82- and 77-kDa non-calmodulin-binding fragments. Similarly, fragmentation of the phosphorylated Ca(2+)-ATPase by calpain I revealed that calmodulin-binding fragments (127 and 125 kDa) retained phosphate label whereas a non-calmodulin-binding fragment (124 kDa) did not. The calmodulin-binding domain, located about 12 kDa from the carboxyl terminus of the Ca(2+)-ATPase, was thus located as a site of protein kinase C phosphorylation. A synthetic peptide corresponding to a segment of the calmodulin-binding domain (H2 N-R-G-L-N-R-I-Q-T-Q-I-K-V-V-N-COOH) was indeed phosphorylated at the single threonine residue within this sequence. The additional serine phosphorylation site was carboxyl terminal to the calmodulin domain. Phosphorylation by purified type III protein kinase C (canine heart) antagonized the calmodulin activation of the Ca(2+)-ATPase, particularly at lower Ca2+ concentrations (0.2-1.0 microM). By contrast, a purified but unresolved protein kinase C isoenzyme mixture from rat brain stimulated the activity of Ca(2+)-ATPase prepared in asolectin, but not glycerol, by more than 2-fold in the presence of the ionophore A23187, without increasing its Ca2+ sensitivity. The results clearly indicate that human erythrocyte Ca(2+)-ATPase is a substrate of protein kinase C, but the effect of phosphorylation on the activity of the enzyme depends on the isoenzyme form of protein kinase C used and on the lipid associated with the Ca(2+)-ATPase.
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PMID:Protein kinase C phosphorylates the carboxyl terminus of the plasma membrane Ca(2+)-ATPase from human erythrocytes. 182 43

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