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 contribution of an electrogenic proton pump to the membrane potential of neuroblastoma x glioma hybrid NG 108-15 cells was determined with whole-cell voltage and current recordings and cell volume measurements with the preparation bathed in symmetrical 140 mM KCl solutions. The effects of the K+ channel blockers tetraethylammonium and 4-aminopyridine and of the H+-ATPase inhibitor bafilomycin A1 on the membrane potential and input resistance revealed that the membrane potential is generated by an outward H+ pump current of 5-15 pA in equilibrium with an inward passive current. This conclusion is supported by both current- and voltage-clamp results obtained when the preparation was bathed in a Na+-containing external solution after K+ channel blockade with Cs+ in the pipette. Additional support was obtained by measurement of the volume of cells incubated in solutions containing 140 mM KCl. Tetraethylammonium induced a bafilomycin-sensitive increase in inward K+ current and an increase in cell volume of 76% which we believe to be a consequence of the K+ influx. Finally, comparison of membrane potentials obtained in experiments using Na+-containing external, and K+-containing pipette solutions and after K+ channel blockade with Cs+ in the pipette also showed that, under normal physiological conditions, the resting membrane potential is essentially determined by an electrogenic H+ pump.
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PMID:A proton pump contributes to neuroblastoma x glioma cell membrane potentials. 930 8

We previously reported that copper efflux from C6 rat glioma cells was blocked by a brief exposure to sulfhydryl reagents p-chloromercuribenzoate (PCMB) and iodoacetamide as well as dicyclohexylcarbodiimide, suggesting the possible involvement of a Cu-transporting ATPase in the efflux mechanism. In this report, we show that copper efflux from PC12 cells, a neuron-like cell line established from rat adrenal pheochromocytoma, is also inhibited by PCMB exposure. Furthermore, we show that both C6 and PC12 cells express a homolog of the Menkes gene (MNK) as detected by RT-PCR with primers designed from a mouse cDNA and confirmed by sequence analysis of the amplified product. An expected 760-bp fragment representing the transduction and phosphorylation domains and a 925-bp fragment encoding the heavy metal-binding domain of Atp7a were amplified from a RNA extract of C6 and PC12 cells. Sequence data revealed that 690 bp of the 760-bp fragment from C6 cells were an identical match to a similar fragment from PC12 cells. Both fragments encoded a 229 amino-acid polypeptide that had a 98.7% sequence homology to mouse Atp7a. In addition, 880 bp from the 925-bp fragment of the two cell lines were identical and encoded a 293 amino-acid polypeptide with 94.5% sequence homology to mouse Atp7a. These data establish that a Menkes-type Cu-transporting ATPase is expressed in rat C6 and PC12 cells and strongly support the hypothesis that both neurons and glia are involved in maintaining Cu homeostasis in the central nervous system.
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PMID:A Menkes P-type ATPase involved in copper homeostasis in the central nervous system of the rat. 937 50

Capacitative Ca2+ entry, a main pathway of Ca2+ entry evoked by receptor activation, is widely confirmed in various types of cells. However, the mechanism of the activation of capacitative Ca2+ entry is unknown. We checked the several candidates for the mechanism of capacitative Ca2+ entry pathway in rat glioma C6 cells using thapsigargin (TG), a microsomal Ca(2+)-ATPase inhibitor. Pretreatment with pertussis toxin did not affect the peak and sustained elevation of [Ca2+]i evoked by TG. Sodium nitroprusside and 8-bromo cyclic GMP did not affect an elevation of [Ca2+]i induced by TG. Phorbol 12-myristate 13-acetate, an activator of protein kinase C (PKC), and staurosporine, an inhibitor of PKC, did not modify an increase in [Ca2+]i induced by TG. Okadaic acid, an inhibitor of phosphatase, did not affect an increase in [Ca2+]i evoked by TG. Pretreatment with colchicine and cytochalasin D, drugs disrupting cytoskeleton, had no effect on a rise of [Ca2+]i induced by TG. Genistein and erbastatin analog, inhibitors of tyrosine kinase, inhibited an elevation of [Ca2+]i evoked by TG in a dose-dependent manner. The present results suggest that tyrosine kinase regulates capacitative Ca2+ entry into rat glioma C6 cells.
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PMID:Involvement of tyrosine kinase in capacitative Ca2+ entry pathway in rat glioma C6 cells. 946 22

Glial cells extrude acid equivalents to maintain pHi. Although four mechanisms have been described so far, pHi-control under physiological conditions is still not sufficiently explained. We therefore investigated whether a H+-translocating ATPase is involved in glial pHi homeostasis using an established glial cell line (C6 glioma). In the absence of bicarbonate, the inhibition of H+-ATPases by NEM led to a pHi decrease. The application of a more specific inhibitor (NBD-Cl) showed that the H+-ATPase involved is of the vacuolar type. Inhibition went along with delayed cell swelling. Together with the fact that glial acidification was far more pronounced in Na+-free media, this may serve as evidence for a secondary activation of Na+/H+-exchange once an activation setpoint is reached, which in turn causes secondary swelling from Na+-uptake. Stimulation of Na+/H+-exchange by PMA can increase the setpoint. pHi-recovery after an acid load was blocked by the inhibition of v-type H+-ATPase, if pHi did not reach 6.6 during the acid load. The inhibition of Na+/H+-exchange by amiloride inhibited recovery only if acidification was below the threshold. Finally, in bicarbonate-free media a v-type H+-ATPase contributes to pH-regulation in glial cells, especially during pH-homeostasis at physiological conditions, while Na+/H+-exchange gains significance during severe acid loads.
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PMID:A proton-translocating H+-ATPase is involved in C6 glial pH regulation. 965 71

Mediatophore is a protein that translocates acetylcholine (ACh) on calcium action. It is a homopolymer of a 15-kDa proteolipid that is also a constituent of the membrane sector of vacuolar H+-adenosine trisphosphatase (V-ATPase; vacuolar proton pump). Experiments on neuroblastoma cell lines (N18TG-2) that are deficient for ACh release and on cells that are competent for release, such as the glioma C6BU-1 or the N18TG-2/C6BU-1 fusion product NG108-15, show that there is a correlation between ACh release and the 15-kDa proteolipid content of the cell membrane. In another cell line, L-M(TK-), it has been possible to up-regulate ACh release and the membrane proteolipid content after treating the cells with dibutyryl-cyclic AMP or dexamethasone. As mediatophore translocates ACh and as V-ATPase may help vesicular ACh storage, it was interesting to determine the respective role of the two proteins in the observed correlation between release and proteolipid content. After blocking vesicular loading with vesamicol, we did not affect release from these cells, suggesting that the observed correlation may be attributed to mediatophore. The acquisition of an ACh release mechanism would then depend on the process that guides the proteolipid to the plasma membrane of the cell.
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PMID:Enhanced acetylcholine release from cells that have more 15-kDa proteolipid in their membrane, a constituent V-ATPase, and mediatophore. 968 53

Previously, we showed that the transport of Cu by PC12 pheochromocytoma cells and C6 glioma cells correlated with the expression of a Cu-transporting ATPase (Atp7a) that has been linked to Menkes disease. Here, we show that cerebrovascular endothelial (CVE) cells that comprise the blood-brain barrier (BBB) also express the gene for the Cu-ATPase. By using reverse transcription-polymerase chain reaction (RT-PCR) and primers designed from mouse Atp7a cDNA, we amplified a 925-bp and a 760-bp cDNA fragment from two extreme regions of Atp7a mRNA from murine CVE cells; 777 bp of the 925-bp fragment and 677 bp of the 760-bp fragment had a 99.7 and 100% sequence homology, respectively, with mouse Atp7a cDNA. The 777-bp sequences covered the heavy metal binding (Hmb) domain and the 677-bp fragment coded for residues at the -COOH terminus of Atp7a. A functional analysis showed that Cu efflux was blocked by the sulfhydryl reagent p-chloromercuribenzoate (p-CMB), a potential inhibitor of Atp7a function. This study provides strong evidence that a Cu-ATPase in the BBB controls the penetration of Cu into the brain and that lesions to the Cu-ATPase in CVE cells are a primary cause of low brain Cu levels in Menkes disease.
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PMID:Copper efflux from murine microvascular cells requires expression of the menkes disease Cu-ATPase. 968 44

The influence of cooling on the intracellular concentration of Ca2+ ([Ca2+]i) was tested in cell lines expressing chemical receptors. First, when ATP was externally added to rat basophilic leukemia (RBL-2H3) cells, cooling from 37 degrees C to 27 degrees C induced a transient rapid increase in [Ca2+]i. In the absence of extracellular Ca2+, the [Ca2+]i response was induced whereas an inhibitor of microsomal Ca2+ ATPase, thapsigargin, largely abolished the [Ca2+]i response, suggesting that the internal Ca2+ store liberate the Ca2+. A purinergic receptor antagonist, suramin, completely inhibited the [Ca2+]i response to the cooling. Secondly, when serotonin (5-HT) was added to rat glioma C6BU-1 cells, the cooling induced a transient increase in [Ca2+]. This [Ca2+]i response was induced in the absence of external Ca2+, suggesting that the internal Ca2+ stores liberate the Ca2+. These results raise the possibility that some G protein-coupled receptors are sensitive to cooling in the presence of agonist for the receptor.
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PMID:Cooling sensitive [Ca2+]i response associated with signaling of G protein-coupled receptors. 970 96

PDNP (phosphodiesterase I/nucleotide pyrophosphatase) is one of a series of ectoenzymes that are involved in hydrolysis of extracellular nucleotides. PDNP possesses ATPase (EC 3.6.1.3) and ATP pyrophosphatase (EC 3.6.1.8) activities. Mammalian PDNP consists of three closely related family proteins (PDNP1, -2, and -3), and they are expressed in different cell types and at different developmental stages. Rat PDNP3 is expressed in a subset of immature glial cells and in the alimentary tract. Human PDNP3 is expressed in glioma cells, prostate, and uterus, but not in the alimentary tract. We have cloned genomic DNA containing the whole coding region of the human PDNP3 gene and determined its exon-intron structure. The human PDNP3 gene spans over 60 kb and is organized into 25 exons and 24 introns. We determined the nucleotide sequence of the 5'-flanking region of human and rat PDNP3 genes. The upstream region of both species lacks a canonical TATA box and contains a putative binding site for CCAAT enhancer-binding proteins near the transcription start site. Promoter activity analysis of the 5'-flanking region revealed that the sequence around the CCAAT box is required for its transcriptional activity in 9L rat glioma cells. A gel shift assay demonstrated that 9L nuclear extract contains proteins that bind to this region.
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PMID:Genomic structure and promoter analysis of the ecto-phosphodiesterase I gene (PDNP3) expressed in glial cells. 1052 96

Calphostin C-mediated apoptosis in glioma cells was reported previously to be associated with down-regulation of Bcl-2 and Bcl-xL. In this study, we report that 100 nM calphostin C also induces translocation and integration of monomeric Bax into mitochondrial membrane, followed by cytochrome c release into cytosol and subsequent decrease of mitochondrial inner membrane potential (DeltaPsim) before activation of caspase-3. The integration of monomeric Bax was associated with acquirement of alkali-resistance. The translocated monomeric Bax was partly homodimerized after cytochrome c release and decrease of DeltaPsim. The translocation and homodimerization of Bax, cytochrome c release, and decrease of DeltaPsim were not blocked by 100 microM z-VAD.fmk, a pan-caspase inhibitor, but the homodimerization of Bax and decrease of DeltaPsim were inhibited by 10 microM oligomycin, a mitochondrial F0F1-ATPase inhibitor. Therefore, it would be assumed that mitochondrial release of cytochrome c results from translocation and integration of Bax and is independent of permeability transition of mitochondria and caspase activation, representing a critical step in calphostin C-induced cell death.
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PMID:Calphostin C-mediated translocation and integration of Bax into mitochondria induces cytochrome c release before mitochondrial dysfunction. 1082 74

The effects of 2,5-di(tert-butyl)-1,4-benzohydroquinone (tBHQ), a synthetic phenolic antioxidant and a blocker of the sarco-endoplasmic ATPase, were evaluated on low and high voltage-activated Ca(2+) currents (ICas) with rodent dorsal root ganglion, hippocampal, and motor neurons. In all cell types tested, tBHQ (IC(50) = 35 microM) blocked ICa at concentrations used to inhibit sarco-endoplasmic ATPase. This effect was specific to tBHQ because the other sarco-endoplasmic reticulum calcium ATPase pump inhibitors (thapsigargin and cyclopiazonic acid) had no effect. Selective blockade of the N-type current with omega-conotoxin GVIA and of P- (motoneuron) or Q-type currents (hippocampal neuron) with omega-agatoxin IVA indicated that tBHQ inhibited N, P, and Q types of ICa. tBHQ had no effect on nitrendipine-sensitive (L-type) and residual drug-resistant (R-type) ICa, nor on the low voltage-activated T-type ICa. Contrary to neuronal cells, the L-type ICa was inhibited by tBHQ in a differentiated mouse neuroblastoma and rat glioma hybrid cell line. Injection of cDNAs encoding the alpha1A, alpha1B, alpha1C, and alpha1E subunits into oocytes showed that tBHQ blocked ICas at the level of the pore-forming protein. This effect of tBHQ on ICa should be considered when interpreting results obtained with tBHQ used on neuronal preparations. It also may be useful for developing new strategies for the generation of more potent intracellular calcium transient inhibitors.
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PMID:Sarco-endoplasmic ATPase blocker 2,5-Di(tert-butyl)-1, 4-benzohydroquinone inhibits N-, P-, and Q- but not T-, L-, or R-type calcium currents in central and peripheral neurons. 1086 Sep 23

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