EC:3.6.1.3 - FACTA Search

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)

Although taxol inhibits membrane trafficking, the nature of this inhibition has not been well defined. In this study, we define the effects of taxol on endocytosis in CV-1 cells using density gradient centrifugation of membranes over sorbitol density gradients. After taxol treatment, resident endosomal enzymes and the epidermal growth factor (EGF) receptor (EGFR) showed significant (P </= 0.05) enrichment in membranes with properties of early endosomes (fractions 4 and 5); the EGFR and Na+-K+-ATPase were also significantly (P </= 0.05) depleted in lysosomal fractions (fractions 10 and 11). The suggestion that taxol specifically reduces movement of endosomal constituents to lysosomes was supported by fluorescence microscopy studies revealing restriction of EGF to the peripheries of taxol-treated cells, in contrast to the perinuclear lysosomal-like distribution of EGF seen in controls. Kinetic studies with 125I-labeled EGF were also consistent with a taxol-induced block in traffic from endosomes and lysosomes after 15 min of uptake but also suggested an additional taxol-sensitive step in trafficking that involved redistribution of 125I-EGF within high-density compartments after 150 min. Related changes in cytoplasmic dynein distribution were observed within high-density compartments from taxol-treated cells, suggesting that this motor might participate in this later taxol-sensitive trafficking event. Electron microscopic examination of high-density membranes (fraction 12) showed that taxol increased the numbers of small (<500 nm) dense vesicles, with a relative depletion of the larger (>500 nm) vesicles found in controls. These data demonstrate that disruption of endocytic events by taxol includes the early accumulation of protein and endocytic markers in endosomes and the later accumulation in a dense compartment that we propose is a subdomain of the lysosomes.
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PMID:Taxol inhibits endosomal-lysosomal membrane trafficking at two distinct steps in CV-1 cells. 984 25

This study examined the repair of renal proximal tubule cellular (RPTC) functions following sublethal injury induced by the nephrotoxicant S-(1,2-dichlorovinyl)-L-cysteine (DCVC). DCVC exposure resulted in 31% cell death and loss 24 h following the treatment. Monolayer confluence recovered through migration/spreading but not proliferation after 6 days. Basal, uncoupled, and ouabain-sensitive oxygen consumption (QO2) decreased 47, 76, and 62%, respectively, 24 h after DCVC exposure. Na+-K+-ATPase activity and Na+-dependent glucose uptake were inhibited 80 and 68%, respectively, 24 h after DCVC exposure. None of these functions recovered over time. Addition of epidermal growth factor (EGF) following DCVC exposure did not prevent decreases in basal, uncoupled, and ouabain-sensitive QO2 values and Na+-K+-ATPase activity but promoted their recovery over 4-6 days. In contrast, no recovery of Na+-dependent glucose uptake occurred in the presence of EGF. These data show that: 1) DCVC exposure decreases mitochondrial function, Na+-K+-ATPase activity, active Na+ transport, and Na+-dependent glucose uptake in sublethally injured RPTC; 2) DCVC-treated RPTC do not proliferate nor regain their physiological functions in this model; and 3) EGF promotes recovery of mitochondrial function and active Na+ transport but not Na+-dependent glucose uptake. These results suggest that cysteine conjugates may cause renal dysfunction, in part, by decreasing RPTC functions and inhibiting their repair.
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PMID:Differential effects of EGF on repair of cellular functions after dichlorovinyl-L-cysteine-induced injury. 995 Sep 53

We examined the characteristics of dopamine (DA) uptake and its regulation by neurotrophic factors such as basic fibroblast growth factor (bFGF) and epidermal growth factor (EGF) in cultured rat astrocytes. In the presence of inhibitors of monoamine oxidase (MAO) and catechol-O-methyl-transferase (COMT), astrocytes took up DA by Na(+)-dependent and Na(+)-independent mechanisms that were sensitive to a reduction in temperature. The Na(+)-dependent and Na(+)-independent components increased linearly with increasing [3H]DA concentration (1-1000 microM), and showed no saturation. Na(+)-dependent DA uptake was significantly inhibited by ouabain, a Na(+)-K+ ATPase inhibitor. In bFGF-treated astrocytes, [3H]DA uptake increased in a time-dependent manner until 48 h, and declined after 72 h in both the presence and absence of Na+. In EGF-treated astrocytes, [3H]DA uptake increased in a time-dependent manner until 72 h in both the presence and absence of Na +. This enhancement of DA uptake induced by EGF or bFGF was significantly inhibited when the cells were cultured with actinomycin D, cycloheximide, or brefeldin A. Actinomycin D and brefeldin A also significantly inhibited the basal uptake of [3H]DA into astrocytes. These results suggest the existence of Na(+)-dependent and Na(+)-independent DA uptake in cultured rat astrocytes, and that EGF or bFGF might stimulate the expression and translocation of the extraneuronal DA transporter.
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PMID:Regulation of dopamine uptake by basic fibroblast growth factor and epidermal growth factor in cultured rat astrocytes. 1057 46

The ubiquitous nephritogenic and carcinogenic fungal metabolite ochratoxin A (OTA) affects function and growth of renal epithelial cells. We studied the possible contribution of changes in cellular Ca2+ homeostasis to the effects of nanomolar concentrations of OTA on immortalized human kidney epithelial (IHKE-1) cells. The effects of OTA on cellular calcium homeostasis ([Ca2+]i), cell proliferation and viability and its interaction with angiotensin II (Ang II) and epidermal growth factor (EGF) were investigated. OTA potentiated EGF- and Ang II-induced cell proliferation Ca2+ dependently at OTA concentrations of 0.1 or 1 nmol/l. A decrease in cell viability could be observed only after 24 h exposure, with threshold concentrations greater than 10 nmol/l. This reduction of cell viability was independent of Ca2+. Within seconds, OTA evoked reversible and concentration-dependent [Ca2+]i oscillations with a threshold concentration of < or =0.1 nmol/l. These oscillations were abolished by removal of extracellular Ca2+, by the Ca(2+)-channel blocker SKF 96365 and by inhibition of phospholipase C. OTA also stimulated thapsigargin-sensitive Ca(2+)-ATPase activity and increased the filling state of thapsigargin-sensitive Ca(2+)-stores. Exposure to OTA concentration dependently increased cellular adenosine 3',5'-cyclic monophosphate (cAMP) content. In addition, OTA-induced changes of [Ca2+]i were reduced significantly by the protein kinase A inhibitor H-89. Finally, 0.1 or 1 nmol/l OTA potentiated the effects of Ang II and EGF on cellular Ca2+ homeostasis. We conclude that OTA may impair cellular Ca2+ and cAMP homeostasis already at low nanomolar concentrations, resulting in concentration-dependent [Ca2+]i oscillations. OTA interferes also with hormonal Ca2+ signalling, thereby leading to altered cell proliferation. The reduction of cell viability at higher OTA concentrations seems not to depend on Ca2+.
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PMID:Nephritogenic ochratoxin A interferes with hormonal signalling in immortalized human kidney epithelial cells. 1065 Sep 79

The mouse SKD1 is an AAA-type ATPase homologous to the yeast Vps4p implicated in transport from endosomes to the vacuole. To elucidate a possible role of SKD1 in mammalian endocytosis, we generated a mutant SKD1, harboring a mutation (E235Q) that is equivalent to the dominant negative mutation (E233Q) in Vps4p. Overexpression of the mutant SKD1 in cultured mammalian cells caused defect in uptake of transferrin and low-density lipoprotein. This was due to loss of their receptors from the cell surface. The decrease of the surface transferrin receptor (TfR) was correlated with expression levels of the mutant protein. The mutant protein displayed a perinuclear punctate distribution in contrast to a diffuse pattern of the wild-type SKD1. TfR, the lysosomal protein lamp-1, endocytosed dextran, and epidermal growth factor but not markers for the secretory pathway were accumulated in the mutant SKD1-localized compartments. Degradation of epidermal growth factor was inhibited. Electron microscopy revealed that the compartments were exaggerated multivesicular vacuoles with numerous tubulo-vesicular extensions containing TfR and endocytosed horseradish peroxidase. The early endosome antigen EEA1 was also redistributed to these aberrant membranes. Taken together, our findings suggest that SKD1 regulates morphology of endosomes and membrane traffic through them.
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PMID:The mouse SKD1, a homologue of yeast Vps4p, is required for normal endosomal trafficking and morphology in mammalian cells. 1067 28

Clinical studies and in vitro data from isolated parietal cells suggest that acute Helicobacter pylori infection inhibits acid secretion. Gastric acidification is mediated by H(+)-K(+)-ATPase, an integral protein of parietal cell apical membranes. To test the hypothesis that H. pylori downregulates H(+)-K(+)-ATPase alpha-subunit (HKalpha) gene expression and to identify potential intracellular signaling pathways mediating such regulation, we transfected human gastric adenocarcinoma (AGS) cells with human and rat HKalpha 5'-flanking DNA fused to a luciferase reporter plasmid. Histamine caused dose-dependent, cimetidine-sensitive (10(-4) M) increases in cAMP, free intracellular Ca(2+), and HKalpha promoter activation in AGS cells. H. pylori infection of transfected AGS cells dose dependently inhibited basal and histamine-stimulated HKalpha promoter activity by 80% and 66%, respectively. H. pylori dose dependently inhibited phorbol myristate acetate-induced (10(-7) M) and staurosporine- (10(-7) M) and calphostin C-sensitive (5 x 10(-8) M) activation of HKalpha promoter. Also, H. pylori inhibited epidermal growth factor (EGF) (10(-8) M), genistein-sensitive (5 x 10(-5) M) activation of HKalpha promoter, reducing activity to 60% of basal level. These data suggest that H. pylori inhibits HKalpha gene expression via intracellular pathways involving protein kinases A and C and protein tyrosine kinase, AGS cells have functional histamine H(2) and EGF receptors, and transiently transfected AGS cells are a useful model for studying regulation of HKalpha gene expression.
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PMID:Inhibition of human gastric H(+)-K(+)-ATPase alpha-subunit gene expression by Helicobacter pylori. 1085 29

The objective of this study was to investigate acute and long-term effects of epidermal growth factor (EGF) and transforming growth factor alpha (TGFalpha) on basal ion transport activity of glandular endometrial epithelial cells in primary culture. The effects of EGF on insulin-dependent regulation of Na+ transport across this epithelium was also investigated. Addition of 1.6 nM EGF or 2 nM TGFalpha to the basolateral, but not the apical, solution inhibited both basal and insulin-stimulated Na+ transport with a maximum response within 45-60 min. This effect was mimicked by the calcium ionophore ionomycin. Incubation with EGF for 4 days inhibited insulin-stimulated Na absorption in a concentration-dependent fashion with an IC(50) value of 0.3 nM. Experiments using amphotericin B-permeabilized monolayers demonstrated that EGF inhibited Na transport by decreasing apical membrane Na conductance without affecting insulin-dependent stimulation of the Na+-K+ ATPase. Addition of EGF or TGFalpha for 24 h resulted in increased basal Cl- secretion in addition to inhibition of Na absorption. The EGF-induced increase in Cl- secretion was inhibited in part by indomethacin, suggesting that long-term regulation by EGF involves stimulation of arachidonic acid synthesis and prostaglandin release. The EGF-induced increase in indomethacin-insensitive Cl- secretion was prevented by the protein synthesis inhibitor cyclohexamide, and by the DNA transcription inhibitor actinomycin D indicating that EGF-stimulated anion secretion required DNA transcription and protein synthesis. The results of these studies demonstrated that the basal transport properties of endometrial epithelial cells are differentially regulated by EGF, TGFalpha, and insulin.
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PMID:Epidermal growth factor regulates the transition from basal sodium absorption to anion secretion in cultured endometrial epithelial cells. 1116 61

Na/K-ATPase hydrolyzes ATP to maintain the transmembrane gradients of Na+ and K+ found in most mammalian cells and is inhibited specifically by cardiac glycosides such as ouabain. Recently, we have shown that partial inhibition of Na/K-ATPase by non-toxic concentrations of ouabain causes hypertrophic growth and transcriptional regulation of several growth-related marker genes in neonatal rat cardiac myocytes. These ouabain effects involve the activation of multiple signal transduction pathways, including the activation of Src kinase and tyrosine phosphorylation of the epidermal growth factor receptors and other proteins, followed by the activation of Ras, the Ras/Raf/MEK/MAPK cascade, and increased production of reactive oxygen species. The gene regulatory actions of ouabain, like its classical effect on cardiac contractility, are dependent on the net influx of Ca2+ and rise in [Ca2+]i, indicating that the latter is a shared second messenger for the ouabain effects on cardiac contractility and growth. Significantly, the effects of ouabain on several early signaling events including stimulation of tyrosine phosphorylation and production of reactive oxygen species are independent of changes in intracellular Na and Ca2+ concentrations. Taken together, these new findings have led us to propose that when ouabain binds to Na/K-ATPase, it converts the enzyme to a signal transducer and initiates multiple gene regulatory pathways through either direct or indirect interactions with tyrosine kinases in cardiac myocytes.
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PMID:Ouabain interaction with cardiac Na/K-ATPase reveals that the enzyme can act as a pump and as a signal transducer. 1135 99

Extracellular signal-regulated protein kinases (ERKs) are important in many cellular functions. We and others have previously reported that prolonged exposure of gastric parietal cells to epidermal growth factor (EGF) enhanced gastric acid secretion stimulated by secretagogues via ERKs. In this study, we examined whether ERKs regulated H(+),K(+)-ATPase alpha-subunit gene expression using a gastric cancer cell line, AGS. EGF induced ERK activity time- and dose-dependently with a maximal effect observed at 10 min and 10 nM, respectively. The MEK inhibitors, U0126 and PD-98059, dose-dependently inhibited the ERK activity stimulated by EGF. To test H(+),K(+)-ATPase alpha-subunit gene expression, we transfected AGS cells with a plasmid containing a canine H(+),K(+)-ATPase alpha-subunit gene promoter fused to a luciferase reporter gene. EGF induced luciferase activity in transfected cells; this effect was inhibited by the MEK inhibitors, suggesting that EGF-induced gene expression involved the ERK pathway. When AGS cells were transfected with the reporter plasmids in conjunction with an expression vector encoding constitutively active MEK1, luciferase activity was strongly enhanced; this effect was attenuated by the MEK inhibitors or by an additional cotransfection of dominant negative MEK1. Taken together, our results led us to conclude that the ERK pathway may mediate H(+),K(+)-ATPase alpha-subunit gene expression, contributing to gastric acid secretion in parietal cells.
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PMID:Extracellular signal-regulated protein kinases mediate H(+),K(+)-ATPase alpha-subunit gene expression. 1181 3

We have found using differential display of mRNA that the growth factor heregulin beta 1 (HRG), a combinatorial ligand for human epidermal growth factor receptors (HERs), induced expression of G3BP, the Ras GTPase-activating protein SH3 domain-binding protein, in breast cancer cells. G3BP is a downstream effector protein of Ras signaling with ATP-dependent RNase and helicase activities, which may link Ras signaling with RNA turnover and cell cycle progression. In human breast cancer cells, HRG induced G3BP mRNA and protein expression. Up-regulation of G3BP was found in MCF7 breast cancer cells overexpressing HER2. G3BP was also overexpressed in human breast tumors in parallel with HER2 overexpression and in an estrogen-independent manner, suggesting a role for G3BP in cancer progression. In addition, HRG stimulation of breast cancer cells promoted phosphorylation of G3BP and increased the association of G3BP with GTPase-activating protein, both of which are essential for G3BP activity. G3BP ATPase activity was also significantly increased by HRG treatment. Furthermore, HRG treatment resulted in G3BP translocation to the nucleus and colocalization with acetylated histone H3, a hallmark of active transcription sites. G3BP induction, phosphorylation, ATPase activity, and relocalization after HRG treatment could all be blocked by pretreatment with the anti-receptor HER2 monoclonal antibody Herceptin (trastuzumab), which may suggest additional applications for this therapeutic antibody. These findings demonstrate for the first time the receptor-dependent regulation of G3BP, a downstream effector of Ras signaling, by HRG, a growth factor with diverse functions in breast cancer cells.
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PMID:Heregulin induces expression, ATPase activity, and nuclear localization of G3BP, a Ras signaling component, in human breast tumors. 1188 85

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