Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 a previous study (Yoon, K. L., and Guidotti, G., 1994 J. Biol. Chem. 269, 28249-28258), we indicated that the alpha subunit of the Na,K-ATPase has 4 transmembrane segments in the COOH terminal domain between residues Lys769 and Val939, and that both the NH2-terminus and the COOH-terminus are in the cytosol. However, there was insufficient information to determine whether there are more transmembrane segments between residues Val939 and the COOH-terminal Tyr1018. To investigate this question, we inserted the influenza virus hemagglutinin (HA)-epitope between Leu973 and Arg974 of the alpha1 chain, expressed the construct in COS-7 and HeLa cells and determined the membrane arrangement by indirect immunofluorescence. The results indicate that Leu973 is not on the extracellular surface of the plasma membrane. Thus, the alpha1 subunit is likely to possess only four complete transmembrane segments in the COOH terminal domain between residues Lys769 and Tyr1018.
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PMID:Residue leu973 of the rat alpha1 subunit of the Na,K-ATPase is located on the cytoplasmic side of the plasma membrane. 979 Sep 71

We have studied the actin-activated ATPase activities of three mutations in the motor domain of the myosin heavy chain that cause familial hypertrophic cardiomyopathy. We placed these mutations in rodent alpha-cardiac myosin to establish the relevance of using rodent systems for studying the biochemical mechanisms of the human disease. We also wished to determine whether the biochemical defects in these mutant alleles correlate with the severity of the clinical phenotype of patients with these alleles. We expressed histidine-tagged rat cardiac myosin motor domains along with rat ventricular light chain 1 in mammalian COS cells. Those myosins studied were wild-type alpha-cardiac and three mutations in the alpha-cardiac myosin heavy chain head (Arg249Gln, Arg403Gln, and Val606Met). These mutations in human beta-cardiac myosin heavy chain have predominantly moderate, severe, and mild clinical phenotypes, respectively. The crystal structure of the skeletal myosin head shows that the Arg249Gln mutation is near the ATP-binding site and the Arg403Gln and Val606Met mutations are in the actin-binding region. Expressed histidine-tagged alpha-motor domains retain physiological ATPase properties similar to those derived from cardiac tissue. All three myosin mutants show defects in the ATPase activity, with the degree of enzymatic impairment of the mutant myosins correlated with the clinical phenotype of patients with the disease caused by the corresponding mutation.
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PMID:Functional analysis of myosin mutations that cause familial hypertrophic cardiomyopathy. 982 22

A human brain E-type ATPase (HB6 ecto-apyrase) was subjected to site-directed mutagenesis to assess the functional significance of two highly conserved tryptophan residues (Trp 187 and Trp 459), the only two tryptophans conserved in nearly all E-type ATPases. Mutation of tryptophan 187 to alanine yielded a poorly expressed ecto-apyrase completely devoid of nucleotidase activity. Immunolocalization of the W187A mutant in mammalian COS cells showed a cellular distribution clearly different from that of the wild-type enzyme, with the majority of the immunoreactivity concentrated in the interior of the cell. Unlike the wild-type enzyme, this mutant did not bind the nucleotide analogue Cibacron Blue and was sensitive to proteolytic digestion by chymotrypsin. These results suggest alteration of the tertiary structure, causing the enzyme to be improperly folded and retained within the cell. In contrast, mutation of tryptophan 459 to alanine resulted in an ecto-apyrase with enhanced NTPase activity, but diminished NDPase activity. Immunolocalization of this active mutant ecto-apyrase revealed a cellular pattern similar to that of the wild-type enzyme, distributed along the cell periphery and in cell processes. Coupling this active W459A mutation to a previously described mutation (D219E) resulted in an enzyme which preferentially hydrolyzes nucleoside triphosphates over diphosphates. The D219E/W459A double mutant had an ATPase:ADPase ratio of 11:1 and a UTPase:UDPase ratio of 148:1. In addition, the double mutant is substantially less sensitive to inhibition by azide, a more potent inhibitor of ecto-apyrases than ecto-ATPases. Thus, mutation of only two amino acids of an E-type ATPase essentially converts an ecto-apyrase to an ecto-NTPase.
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PMID:Mutagenesis of two conserved tryptophan residues of the E-type ATPases: inactivation and conversion of an ecto-apyrase to an ecto-NTPase. 1023 36

The mineralocorticoid receptor (MR) and glucocorticoid receptor (GR) belong to the steroid/thyroid hormone superfamily of ligand-induced transcription factors. Both activate the human Na/K ATPase alpha1 and beta1 genes transcriptionally. To assess the role of the transcription factor Sp1 and the nuclear factor I (NF-I), in MR- and GR-mediated gene expression using the human Na/K ATPase beta1 full-length promoter, we have examined the functions of Sp-I and NF-I functions in two different cell lines, COS-1 and T-84. By transient transfections we have shown that Sp-I significantly enhances MR and GR expression, whereas NF-I had negligible effect. We propose that the transcriptional enhancement could be through a direct interaction physically between MR or GR with Sp1 that allows other factors to bind the responsive element resulting in synergistic upregulation of transcription.
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PMID:Upregulation of mineralocorticoid- and glucocorticoid-receptor gene expression by Sp-I. 1032 76

1. It is well established that the activity of Na+,K+-ATPase (NKA) is regulated by protein kinases A (PKA) and C (PKC), but results on their effects have been conflicting. The aim of this study was to examine if this is ascribed to the intracellular concentration of Ca2+ ([Ca2+]i). 2. Rat renal NKA was stably expressed in COS cells (green monkey kidney cells). Increases in [Ca2+]i were achieved with the Ca2+ ionophore A23187 and verified by direct measurements of [Ca2+]i using fura-2 AM as an indicator. The activity of NKA was measured as ouabain-sensitive 86Rb+ uptake and the state of phosphorylation of NKA was monitored with two site-directed phosphorylation state-specific antibodies. 3. Activation of PKA with forskolin decreased NKA activity by 45.5 +/- 8.9 % at low [Ca2+]i (120 nM) and increased it by 40.5 +/- 6.4 % at high [Ca2+]i (420 nM). The change in NKA activity by forskolin correlated with the level of increase in [Ca2+]i. 4. The effect of 1-oleoyl-2-acetoyl-sn-glycerol (OAG), a specific PKC activator, on the activity of NKA was also Ca2+ dependent, being inhibitory when [Ca2+]i was low (29.3 +/- 3.6 % decrease at 120 nM Ca2+) and stimulatory when [Ca2+]i was high (36.6 +/- 10.1 % increase at 420 nM Ca2+). 5. The alpha subunit of NKA was phosphorylated under both low and high [Ca2+]i conditions upon PKA or PKC activation. PKA phosphorylates Ser943. PKC phosphorylates Ser23. 6. To see if the observed effects on NKA activity are secondary to changes in Na+ entry, we measured NKA hydrolytic activity using permeabilized membranes isolated from cells under controlled Na+ conditions. A decreased activity at low [Ca2+]i and no change in activity at high [Ca2+]i were observed following forskolin or OAG treatment. 7. Purified NKA from rat renal cortex was phosphorylated and inhibited by PKC. This phosphorylation-associated inhibition of NKA was neither affected by Ca2+ nor by calmodulin, tested alone or together. 8. We conclude that effect of PKA/PKC on NKA activity is dependent on [Ca2+]i. This Ca2+ dependence may provide an explanation for the diversity of responses of NKA to activation of either PKA or PKC.
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PMID:[Ca2+]i determines the effects of protein kinases A and C on activity of rat renal Na+,K+-ATPase. 1037 87

Amino acid residues in the NH(2)-terminal region (Glu(2) - Ala(14)) of adult fast twitch skeletal muscle sarcoplasmic reticulum Ca(2+)-ATPase (SERCA1a) were deleted or substituted, and the mutants were expressed in COS-1 cells. Deletion of any single residue in the Ala(3)-Ser(6) region or deletion of two or more consecutive residues in the Ala(3)-Thr(9) region caused strongly reduced expression. Substitution mutants A4K, A4D, and H5K also showed very low expression levels. Deletion of any single residue in the Ala(3)-Ser(6) region caused only a small decrease in the specific Ca(2+) transport rate/mg of SERCA1a protein. In contrast, other mutants showing low expression levels had greatly reduced specific Ca(2+) transport rates. In vitro expression experiments indicated that translation, transcription, and integration into the microsomal membranes were not impaired in the mutants that showed very low expression levels in COS-1 cells. Pulse-chase experiments using [(35)S]methionine/cysteine labeling of transfected COS-1 cells demonstrated that degradation of the mutants showing low expression levels was substantially faster than that of the wild type. Lactacystin, a specific inhibitor of proteasome, inhibited the degradation accelerated by single-residue deletion of Ala(3). These results suggest that the NH(2)-terminal region (Ala(3) -Thr(9)) of SERCA1a is sensitive to the endoplasmic reticulum-mediated quality control and is thus critical for either correct folding of the SERCA1a protein or stabilization of the correctly folded SERCA1a protein or both.
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PMID:Deletions or specific substitutions of a few residues in the NH(2)-terminal region (Ala(3) to Thr(9)) of sarcoplasmic reticulum Ca(2+)-ATPase cause inactivation and rapid degradation of the enzyme expressed in COS-1 cells. 1044 57

Mutant Phe788 --> Leu of the rat kidney Na+,K(+)-ATPase was expressed in COS cells to active-site concentrations between 40 and 60 pmol/mg of membrane protein. Analysis of the functional properties showed that the discrimination between Na+ and K+ on the two sides of the system is severely impaired in the mutant. Micromolar concentrations of K+ inhibited ATP hydrolysis (K(0.5) for inhibition 107 microM for the mutant versus 76 mM for the wild-type at 20 mM Na+), and at 20 mM K+, the molecular turnover number for Na+,K(+)-ATPase activity was reduced to 11% that of the wild-type. This inhibition was counteracted by Na+ in high concentrations, and in the total absence of K+, the mutant catalyzed Na(+)-activated ATP hydrolysis ("Na(+)-ATPase activity") at an extraordinary high rate corresponding to 86% of the maximal Na+,K(+)-ATPase activity. The high Na(+)-ATPase activity was accounted for by an increased rate of K(+)-independent dephosphorylation. Already at 2 mM Na+, the dephosphorylation rate of the mutant was 8-fold higher than that of the wild-type, and the maximal rate of Na(+)-induced dephosphorylation amounted to 61% of the rate of K(+)-induced dephosphorylation. The cause of the inhibitory effect of K+ on ATP hydrolysis in the mutant was an unusual stability of the K(+)-occluded E2(K2) form. Hence, when E2(K2) was formed by K+ binding to unphosphorylated enzyme, the K(0.5) for K+ occlusion was close to 1 microM in the mutant versus 100 microM in the wild-type. In the presence of 100 mM Na+ to compete with K+ binding, the K(0.5) for K+ occlusion was still 100-fold lower in the mutant than in the wild-type. Moreover, relative to the wild-type, the mutant exhibited a 6-7-fold reduced rate of release of occluded K+, a 3-4-fold increased apparent K+ affinity in activation of the pNPPase reaction, a 10-11-fold lower apparent ATP affinity in the Na+,K(+)-ATPase assay with 250 microM K+ present (increased K(+)-ATP antagonism), and an 8-fold reduced apparent ouabain affinity (increased K(+)-ouabain antagonism).
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PMID:Mutant Phe788 --> Leu of the Na+,K+-ATPase is inhibited by micromolar concentrations of potassium and exhibits high Na+-ATPase activity at low sodium concentrations. 1047 Dec 89

Sodium-potassium ATPase (Na/K ATPase) is a major target of mineralocorticoids. Both aldosterone and glucocorticoids activate the human Na/K ATPase alpha1 and beta1 genes transcriptionally. The mineralocorticoid receptor (MR) and the glucocorticoid receptor (GR) have been shown to bind the glucocorticoid response element (GRE); however, a specific element responsible for the activation of the MR is not known. Sequence analysis of the putative regulatory region of the Na/K ATPase alpha1 gene revealed the presence of a hormone response element that allows the MR to interact with it, at least as well as if not better than the GR. This response element is designated MRE/GRE. In this investigation, we demonstrated the MR and GR induced gene expression in COS-1 cells by cotransfecting with respective expression plasmids (RshMR and RshGR) along with a luciferase reporter. The synthetic MRE/GRE linked to a neutral promoter was activated by MR (6-fold); however, the GR induced a lower level of expression (3.8-fold), suggesting that the element may be preferably MR responsive. Mutations in the synthetic MRE/GRE could not induce the expression with MR, whereas GR had a small effect. Electrophoretic mobility shift analyses demonstrated a direct interaction of MR and GR with the MRE/GRE that was supershifted by an antiMR antibody and the complex was partially cleared by an antiGR antibody, respectively, whereas nonimmune serum had no effect. Footprinting analyses of the promoter region showed that a portion of the DNA containing this element is protected by recombinant MR and GR. Thus these data confirm that this MRE/GRE interacts with both MR and GR but interaction with receptors may be more MR-responsive than response elements previously described.
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PMID:Identification of a mineralocorticoid/glucocorticoid response element in the human Na/K ATPase alpha1 gene promoter. 1058 Nov 56

The alpha1 subunit of Na,K-ATPase is phosphorylated at Ser-16 by phorbol ester-sensitive protein kinase(s) C (PKC). The role of Ser-16 phosphorylation was analyzed in COS-7 cells stably expressing wild-type or mutant (T15A/S16A and S16D-E) ouabain-resistant Bufo alpha1 subunits. In cells incubated at 37 degrees C, phorbol 12, 13-dibutyrate (PDBu) inhibited the transport activity and decreased the cell surface expression of wild-type and mutant Na,K-pumps equally ( approximately 20-30%). This effect of PDBu was mimicked by arachidonic acid and was dependent on PKC, phospholipase A(2), and cytochrome P450-dependent monooxygenase. In contrast, incubation of cells at 18 degrees C suppressed the down-regulation of Na,K-pumps and revealed a phosphorylation-dependent stimulation of the transport activity of Na,K-ATPase. Na,K-ATPase from cells expressing alpha1-mutants mimicking Ser-16 phosphorylation (S16D or S16E) exhibited an increase in the apparent Na affinity. This finding was confirmed by the PDBu-induced increase in Na sensitivity of the activity of Na,K-ATPase measured in permeabilized nontransfected COS-7 cells. These results illustrate the complexity of the regulation of Na,K-ATPase alpha1 isozymes by phorbol ester-sensitive PKCs and reveal 1) a phosphorylation-independent decrease in cell surface expression and 2) a phosphorylation-dependent stimulation of the transport activity attributable to an increase in the apparent Na affinity.
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PMID:Is phosphorylation of the alpha1 subunit at Ser-16 involved in the control of Na,K-ATPase activity by phorbol ester-activated protein kinase C? 1063 89

Inositol 1,4,5-trisphosphate receptors (IP(3)Rs) are ubiquitous intracellular Ca(2+) release channels whose functional characterization by transfection has proved difficult due to the background contribution of endogenous channels. In order to develop a functional assay to measure recombinant channels, we transiently transfected the rat type I IP(3)R into COS-7 cells. Saponin-permeabilized COS cells transfected with type I IP(3)R showed a 50% increase in inositol 1,4,5-trisphosphate (IP(3))-mediated Ca(2+) release at saturating [IP(3)] (10 micrometer) but no enhancement at subsaturating [IP(3)] (300 nm). However, cotransfection of the IP(3)R and human sarco/endoplasmic reticulum ATPase (SERCA)-2b ATPase cDNA resulted in 60 and 110% increases in Ca(2+) release at subsaturating and saturating doses of IP(3), respectively. IP(3) or adenophostin A failed to release (45)Ca(2+) from microsomal vesicles prepared from cells expressing either type I IP(3)R or SERCA cDNAs alone. However, microsomal vesicles prepared from cells doubly transfected with IP(3)R and SERCA cDNAs released 33.0 +/- 0.04% of the A23187-sensitive pool within 30 s of 1 micrometer adenophostin A addition. Similarly, the initial rate of (45)Ca(2+) influx into oxalate-loaded microsomal vesicles was inhibited by IP(3) only when the microsomes were prepared from COS cells doubly transfected with SERCA-2b and IP(3)R DNA. The absence of a functional contribution from endogenous IP(3)Rs has enabled the use of this assay to measure the Ca(2+) sensitivities of IP(3)-mediated (45)Ca(2+) fluxes through recombinant neuronal type I (SII(+)), peripheral type I (SII(-)), and type III IP(3)Rs. All three channels displayed a biphasic dependence upon [Ca(2+)](cyt). Introduction of mutations D2550A and D2550N in the putative pore-forming region of the type I IP(3)R inhibited IP(3)-mediated (45)Ca(2+) fluxes, whereas the conservative substitution D2550E was without effect. This assay therefore provides a useful tool for studying the regulatory properties of individual IP(3)R isoforms as well as for screening pore mutations prior to more detailed electrophysiological analyses.
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PMID:Functional properties of recombinant type I and type III inositol 1, 4,5-trisphosphate receptor isoforms expressed in COS-7 cells. 1076 74


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