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)

A monoclonal antibody to vacuolar H+ATPase isolated from bovine kidney medulla was produced and characterized by immunoprecipitation and immunocytochemistry. The antibody, immobilized on beads, specifically immunoprecipitated both solubilized N-ethylmaleimide-sensitive ATPase activity and proton-transporting vesicles from renal microsomes; control experiments with an "irrelevant" monoclonal antibody showed no immunoprecipitated activity. By fluorescent immunocytochemistry, the antibody stained the membranes of intracellular vacuolar compartments in LLC-PK1 cells. Immunocytochemical staining showed that the monoclonal antibody colocalized partially with N-(3-[2,4-dinitrophenyl)amino)propyl)-N-(3-amino-propyl)methylamine, a probe for acidic compartments, with the endocytic markers dextran and transferrin, with the lysosomal probe alpha 2-macroglobulin, and with clathrin. The anti-vacuolar H+ATPase antibody showed no colocalization with staining for mitochondrial H+ATPase. The anti-vacuolar H+ATPase antibody should serve as a specific probe for examining the distribution and dynamics of the vacuolar proton pump in renal epithelial cells.
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PMID:Production and characterization of a monoclonal antibody to vacuolar H+ATPase of renal epithelia. 289 Jun 33

The expression of enzymes in LLC-PK1 and MDCK cells was used to study the retention of differentiated properties of the renal epithelial cell lines by a biochemical approach. Activities of marker enzymes, for which intracellular and intranephron localization is known, were determined from crude cell homogenates of LLC-PK1 and MDCK monolayer cultures. The activity patterns of the particular enzymes found were then compared with the in vivo distribution of the enzymes along the rat nephron. LLC-PK1 cells exhibit high activities of apical membrane enzymes when compared with MDCK cells, whereas in the latter high activity of Na-K-ATPase could be detected. The activities of lysosomal enzymes, mitochondrial enzymes, and transaminases were higher in LLC-PK1 than in MDCK cells. Glycolytic enzymes, however, displayed identical activity levels in both the LLC-PK1 and MDCK cells, which may be due to the fact that these are continuous cell lines and to the culture conditions used, since glucose is a major energy source in the culture media.
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PMID:Biochemical characterization of renal epithelial cell cultures (LLC-PK1 and MDCK). 398 61

The effects of aminoglycoside antibiotics on cellular functions of the LLC-PK1 kidney epithelial cell line were studied as a model system for aminoglycoside nephrotoxicity. The treatment with aminoglycoside antibiotics for 3 days caused a decrease in the dome number in the confluent LLC-PK1 cells and an increase in the floating cells in the culture medium. The inhibition of dome formation was dose-dependent and the rank-order of the degree of inhibition was compatible with the rank-order of in vivo nephrotoxicity. Aminoglycosides also decreased the intracellular content of cyclic AMP, with a correlation between the alteration of dome formation and cyclic AMP content. The specific activities of N-acetyl-beta-D-glucosaminidase (marker for lysosomes), aminopeptidase and alkaline phosphatase (marker for apical membranes) and (Na++K+)-adenosine triphosphatase (marker for basolateral membranes) in the homogenate were decreased by gentamicin treatment. Lysosomal and apical membrane enzymes released into the culture medium were increased by gentamicin treatment. The ultrastructural alterations in the lysosomes of gentamicin-treated cells also were observed. Above results suggest that aminoglycoside toxicity to LLC-PK1 cells may be similar to that reported for renal tubules.
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PMID:Effect of aminoglycoside antibiotics on cellular functions of kidney epithelial cell line (LLC-PK1): a model system for aminoglycoside nephrotoxicity. 608 64

Uptake of alpha-methyl-D-glucoside (AMG) by LLC-PK1 cells is inhibited by the uncoupler p-trifluoro-methoxyphenyl-hydrazone (FCCP) and by the absence of extracellular Na+, indicating that the transport system is energy- and Na+-dependent. We have previously demonstrated that transport of AMG by LLC-PK1 cells proceeds against a concentration gradient and is phlorizin-sensitive (Mullin et al., '80). Uptake of AMG was also inhibited by ouabain (OUA) but not by ortho-vanadate (VAN). Rubidium uptake also was affected by OUA but not by VAN. VAN, however, caused collapse of the three-dimensional domes of confluent LLC-PK1 monolayers much more rapidly and thoroughly than OUA. Since domes are presumably dependent upon the Na+ pump, yet VAN is not acting on transport-related functions of the OUA-sensitive (Na+ + K+)-ATPase, we hypothesize a direct effect of VAN on the water permeability of these cells. We also suggest that OUA does not act on these cells until domes collapse in normal course, and access of the OUA to the extracellular surface of antiluminal membranes is then achieved.
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PMID:Effects of ouabain and ortho vanadate on transport-related properties of the LLC-PK1 renal epithelial cell line. 743 Feb 61

Ifosfamide (IF) is an alkylating cytostatic drug with urotoxic (hemorrhagic cystitis) and nephrotoxic side effects. Several cases of Fanconi syndrome in children following therapy with IF were reported. Little information is available concerning the pathomechanisms of transport inhibition by IF. We used a permanent renal epithelial cell line with proximal tubular characteristics (LLC-PK1) in order to investigate the effects of IF and some of its major metabolites (4-OH-IF, chloracetaldehyde, and acrolein). LLC-PK1 cells were used in a confluent state. Sodium-dependent and sodium-independent fluxes of 32PO4 were determined by standard techniques. Activities of marker enzymes of apical and basolateral membranes, of mitochondria, and of endoplasmic reticulum were determined in cell homogenates. IF induces a moderate stimulation of PO4 transport. 4-OH-IF also has a stimulatory effect on transport at low concentrations (up to 200 mumol/l) and with short incubation (2h), while a 24-hour exposure of cells to 100 mumol/l of 4-OH-IF has an inhibitory effect of PO4 transport. Concentrations of 4-OH-IF which inhibit transport also reduce the activity of Na(+)-K(+)-ATPase. Chloracetaldehyde, like 4-OH-IF, induces a biphasic response of PO4 transport with stimulation in the low concentration range (up to 75 mumol/l) and inhibition at higher concentrations. Chloracetaldehyde reduces the activity of succinate-cytochrome c oxidoreductase, suggesting that a defect in ATP generation might play a role in the pathogenesis of Fanconi syndrome induced by IF. Acrolein strongly damages monolayers and reduces sodium-dependent transport of PO4 to very low levels at 150 mumol/l. It reduces the activities of both Na(+)-K+ ATPase and succinate-cytochrome c oxidoreductase. Acrolein also is the only metabolite with a moderate effect on alkaline phosphatase. We conclude that sodium-dependent transport of PO4 is highly sensitive to IF metabolites. In addition to direct toxic effects of IF metabolites on transport proteins within the apical plasma membrane, damage to mitochondrial enzymes and to Na(+)-K+ ATPase which generates the electrochemical gradients for secondary active PO4 transport may play an important role in the pathogenesis of Fanconi syndrome induced by IF.
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PMID:Effect of ifosfamide metabolites on sodium-dependent phosphate transport in a model of proximal tubular cells (LLC-PK1) in culture. 750 38

An LLC-PK1 cell culture model was used to evaluate for a direct protective effect of the pentoxifylline analogue HWA-448 in gentamicin nephrotoxicity at the cellular level. Cells exposed to 2 mM gentamicin for 6 days displayed a significant decrease in specific activities of leucine aminopeptidase, NaK ATPase, and N-acetyl glucosaminidase, and an increase in total cellular phospholipids (P < .05). Concomitant exposure to 0.125 mM HWA-448, a dose that did not alter cellular enzymes or total phospholipids under physiologic conditions, prevented the alterations in marker enzymes and total phospholipids induced by gentamicin (P < .05). Gentamicin binding and uptake studies revealed 0.125 mM HWA-448 had no effect on LLC-PK1 cell plasma membrane binding or cellular gentamicin uptake. We conclude that HWA-448 ameliorates gentamicin-induced alterations in LLC-PK1 cell enzymes and phospholipids by a mechanism independent of plasma membrane binding or cellular uptake.
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PMID:HWA-448 reduces gentamicin toxicity in LLC-PK1 cells. 761 11

In many tissues, hyperglycemia alters the activities of the Na(+)-dependent myo-inositol (Na/MI) transporter, Na(+)-K(+)-ATPase, and protein kinase C (PKC). However, little is known concerning adaptive changes in renal proximal tubular function after acute or chronic hyperglycemia. We examined hyperglycemia-induced changes in Na/MI transport, Na(+)-K(+)-ATPase activity, and PKC activity using three proximal tubule-like cell lines (JTC12, LLC-PK1, and OK/E cells) and primary cultures of human proximal tubular epithelium (HK cells) cultured for varying periods in low- or high-glucose media, myo-Inositol (MI) transport was mediated by a high-affinity (Km approximately 50 mumol/l) Na(+)-dependent saturable process in the four cell lines. Hyperglycemia produced a time-dependent and persistent increase in Na/MI transport in all cell lines. Chronic hyperglycemia increased the Km for MI transport in LLC-PK1 cells and increased the Vmax in both LLC-PK1 and JTC12 cells. Glucose competitively inhibited Na/MI transport in all low-glucose cells and in high-glucose HK, JTC12, and OK/E cells but had no effect on transport in high-glucose LLC-PK1 cells. Acute hyperglycemia also produced time-dependent increases in Na(+)-K(+)-ATPase activity in all cell lines, a change that persisted only in HK cells. A 24-h exposure to high glucose had no effect on PKC activity in any of the cell lines but increased Ca/phospholipid-dependent PKC activity in membrane fractions from chronically high-glucose LLC-PK1 and OK/E cells. These data suggest that hyperglycemia causes acute changes in proximal tubule function and long-lived adaptive responses in Na/MI transport and the PKC signaling pathway.
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PMID:Hyperglycemia-induced changes in Na+/myo-inositol transport, Na(+)-K(+)-ATPase, and protein kinase C activity in proximal tubule cells. 769 15

Epoxyeicosatrienoic acids (EETs) are arachidonic acid metabolites formed endogenously via the cytochrome P450 pathway in rat, rabbit, and human kidney. We characterized the effects of the four regioisomeric EETs on ion transport in the renal epithelial cell line, LLC-PK1. Among the EETs, 14,15-EET was the most potent inhibitor of 86Rb uptake. Its effect was concentration-dependent (IC50 = 75 nM) and stereoselective to the 14S, 15R-EET. Experiments measuring 14,15-EET-induced 86Rb uptake inhibition in the presence of inhibitors of Na(+)-K(+)-ATPase activity (ouabain), Na(+)-K(+)-Cl- cotransporter (furosemide), and Na(+)-H+ exchanger (amiloride) suggested that 14,15-EET inhibits ion transport via an amiloride-sensitive mechanism. These results, together with previous reports demonstrating their endogenous production in the kidney, suggest an important role for EETs, specifically 14,15-EET, in the regulation of ion and water reabsorption in the kidney and implicate their function in renal pathophysiology.
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PMID:Effects of epoxyeicosatrienoic acids on 86Rb uptake in renal epithelial cells. 802

To characterize the amino acid transport system in basolateral membranes and to test for possible intracellular loci of amino acid transport activity, we surveyed the distribution of L-alanine transport activity in rabbit proximal tubular cells and LLC-PK1/Cl4 cells. A three-dimensional separation procedure based on differential sedimentation, density gradient centrifugation, and counter-current distribution resolved 21 physically and biochemically distinct membrane populations from rabbit cortex. Inhibition of L-alanine transport by phenylalanine and N-(methylamino)isobutyric acid was used to delineate parallel amino acid transport pathways. Population n was identified as brush border membranes by virtue of its 16-fold maltase enrichment; 94% of its Na(+)-dependent alanine transport activity was mediated by systems previously shown to be characteristic of brush border membranes. Two populations, c' and c", which accounted for 25% of the total Na,K-ATPase activity, were identified as basalateral membranes on the basis of Na,K-ATPase cumulative enrichment factors of 15 and 21; 82% of the total alanine transport in these populations was mediated by a Na(+)-independent system similar to the classical system L. Na,K-ATPase, Na(+)-independent and Na(+)-dependent alanine transport activities were associated with intracellular membrane populations as well as with the plasma membranes. The major intracellular locus of Na,K-ATPase activity, population i accounted for roughly 31% of the Na,K-ATPase, maximally enriched ninefold; it contained 29% of the total system L transport activity. Population l, which was identified as endoplasmic reticulum because it was the major locus of membrane-bound NADPH cytochrome c reductase activity, contained 44% of the total system A transport. Three distinct Golgi-derived populations, m', m", and o, accounted for 39% of the total system A transport. A survey of the amino acid transport systems in LLC-PK1/Cl4 cells showed that the majority of system A-mediated amino acid transport was present in membranes of intracellular and possibly apical origin. The presence of large intracellular pools of amino acid transport activities might reflect newly synthesized transport proteins, ongoing membrane recycling or, perhaps, intracellular reserves available for rapid recruitment to the plasma membrane.
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PMID:Complex subcellular distribution of sodium-dependent amino acid transport systems in kidney cortex and LLC-PK1/Cl4 cells. 812 99

Calcitonin (CT), which regulates serum calcium through its actions in bone and the kidney tubule, also has a potent natriuretic effect in vivo. Na reabsorption in the proximal kidney tubule is mostly dependent on the activity of the Na,K-ATPase and the apical Na/H exchanger. We have previously shown that CT regulates the activity of the Na,K-ATPase in the proximal kidney tubule cell line LLC-PK1 in a cell cycle-dependent manner. We report here that, in the same cells, CT also regulates the Na/H exchanger through a cell cycle-specific activation of the Ca/calmodulin-dependent protein kinase II. In G2 phase, no changes in ethylisopropyl amiloride-sensitive 22Na uptake is observed, despite an increase in cAMP. In contrast, the hormone inhibits the apical exchanger when the cells are in S phase, resulting in an 80% inhibition of 22Na uptake. These results demonstrate that CT affects the activity of the two major proximal tubule Na transport systems and may help clarify the mechanisms by which CT regulates Na+ reabsorption.
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PMID:Cell cycle-dependent and kinase-specific regulation of the apical Na/H exchanger and the Na,K-ATPase in the kidney cell line LLC-PK1 by calcitonin. 813 57


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