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)

This study reports on changes in morphology and membrane transport in 5 human colon carcinoma cell lines treated with cholera toxin (CT). Three of the cell lines that grew as monolayers (LIM 1215, LIM 1899, LIM 2099) and 1 that grew as floating clumps (LIM 2408) did not show morphological changes after CT treatment. However, cell line LIM 1863 that grows as floating "crypt-like" organoids showed rapid and distinctive changes in morphology and membrane transport after CT treatment. At 1 and 6 hrs after CT treatment, light and transmission electron microscopy revealed rapid dilatation of the central lumen of organoids and the appearance of 2 populations of apical vesicular inclusions. The first population was unusual in being non-membrane bound and limited by fuzzy filamentous material. The second population was membrane bound. Scanning electron microscopy at 1-6 hr after CT treatment showed swelling and loss of surface microvilli on some, but not all, cells. At 24 hr after CT treatment the majority of organoids showed evidence of fluid accumulation and small apical vesicles coalesced to form large single vacuoles that obliterated normal cell morphology. By 48 hr, continued swelling produced extreme attenuation of the plasma membrane with cells taking on an "endothelial cell-like" appearance. The response to CT was dose-dependent. Uptake studies using 86Rubidium and blocking studies using ouabain and amiloride indicated that CT is acting on the Na+/K+ ATPase membrane pump to cause the increased fluid uptake by LIM 1863 cells. This study is the first to report specific morphological changes in intestine-derived cells in response to CT.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of cholera toxin on human colon carcinoma cell lines. 128 72

Affinity-purified polyclonal antibodies, raised against two synthetic peptides corresponding to the R domain and the C terminus of the human cystic fibrosis transmembrane conductance regulator (CFTR), were used to characterize and localize the protein in human epithelial cells. Employing an immunoblotting technique that ensures efficient detection of large hydrophobic proteins, both antibodies recognized and approximately 180-kDa protein in cell lysates and isolated membranes of airway epithelial cells from normal and cystic fibrosis (CF) patients and of T84 colon carcinoma cells. Reactivity with the anti-C terminus antibody, but not with the anti-R domain antibody, was eliminated by limited carboxypeptidase Y digestion. When normal CFTR cDNA was overexpressed via a retroviral vector in CF or normal airway epithelial cells or in mouse fibroblasts, the protein produced had an apparent molecular mass of about 180 kDa. The CFTR expressed in insect (Sf9) cells by a baculovirus vector had a molecular mass of about 140 kDa, probably representing a nonglycosylated form. The CFTR in epithelial cells appears to exist in several forms. N-glycosidase treatment of T84 cell membranes reduces the apparent molecular mass of the major CFTR band from 180 kDa to 140 kDa, but a fraction of the T84 cell CFTR could not be deglycosylated, and the CFTR in airway epithelial cell membranes could not be deglycosylated either. Moreover, wheat germ agglutinin absorbs the majority of the CFTR from detergent-solubilized T84 cell membranes but not from airway cell membranes. The CFTR in all epithelial cell types was found to be an integral membrane protein not solubilized by high salt or lithium diiodosalicylate treatment. Sucrose density gradient fractionation of crude membranes prepared from the airway epithelial cells, previously surface-labeled by enzymatic galactosidation, showed a plasma membrane localization for both the normal CFTR and the CFTR carrying the Phe508 deletion (delta F 508). The CFTR in all cases co-localized with the Na+, K(+)-ATPase and the plasma membrane calcium ATPase, while the endoplasmic reticulum calcium ATPase and mitochondrial membrane markers were enriched at higher sucrose densities. Thus, the CFTR appears to be localized in the plasma membrane both in normal and delta F 508 CF epithelial cells.
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PMID:Biochemical characterization of the cystic fibrosis transmembrane conductance regulator in normal and cystic fibrosis epithelial cells. 137 Apr 88

Addition of either vasoactive intestinal peptide (VIP) or the Ca2+ ionophore, A23187, to confluent monolayers of the T84 epithelial cell line derived from a human colon carcinoma increased the rate of 86Rb+ or 42K+ efflux from preloaded cells. Stimulation of the rate of efflux by VIP and A23187 still occurred in the presence of ouabain and bumetanide, inhibitors of the Na+,K+-ATPase and Na+,K+,Cl- cotransport, respectively. The effect of A23187 required extracellular Ca2+, while that of VIP correlated with its known effect on cyclic AMP production. Other agents which increased cyclic AMP production or mimicked its effect also increased 86Rb+ efflux. VIP- or A23187-stimulated efflux was inhibited by 5 mM Ba2+ or 1 mM quinidine, but not by 20 mM tetraethylammonium, 4 mM 4-aminopyridine, or 1 microM apamin. Under appropriate conditions, VIP and A23187 also increased the rate of 86Rb+ or 42K+ uptake. Stimulation of the initial rate of uptake by either agent required high intracellular K+ and was not markedly affected by the imposition of transcellular pH gradients. The effect of A23187, but not VIP or dibutyryl cyclic AMP, was refractory to depletion of cellular energy stores. A23187-stimulated uptake was not significantly affected by anion substitution, however, stimulation of uptake by VIP required the presence of a permeant anion. This result may be due to the simultaneous activation of a cyclic AMP-dependent Cl- transport system. The kinetics of both VIP- and A23187-stimulated uptake and efflux were consistent with a channel-rather than a carrier-mediated K+ transport mechanism. The results also suggest that cyclic AMP and Ca2+ may activate two different kinds of K+ transport systems. Finally, both transport systems have been localized to the basolateral membrane of T84 monolayers, a result compatible with their possible regulatory role in hormone-activated electrogenic Cl- secretion.
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PMID:Cyclic AMP and Ca2+-activated K+ transport in a human colonic epithelial cell line. 299 98

We studied formation of domes in cell monolayers of the human colon carcinoma cell line Caco-2 which has been shown to exhibit signs of enterocytic differentiation and transport properties. After a 24 hr incubation with 4 X 10(-8) M ouabain, the number of domes seen on Caco-2 cell monolayers grown on plastic dishes was not significantly altered. After a 90 min preincubation with ouabain, 86rubidium uptake by Caco-2 cells was inhibited by ouabain, indicating that the cells have an ouabain-sensitive Na+, K+-ATPase, while dome formation was unaffected by ouabain. Domes were observed in Caco-2 cell monolayers grown on Nuclepore filters when the pore size was 0.015 micron but not when it was 0.030 micron. Our results suggest that dome formation in the Caco-2 cell line could be independent of Na+, K+-ATPase activity and might be due to accumulation of molecules having an effective hydrodynamic radius comprised between 0.015 and 0.030 micron.
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PMID:Dome formation in the human colon carcinoma cell line Caco-2 in culture. Influence of ouabain and permeable supports. 316 70

Soluble human colon carcinoma extract(s) (SCE) were potent nonspecific inhibitors of lymphoproliferative responses to mitogens. Inhibition was concomitant with induction in about 35% of cells of morphologic alterations for most of them comparable with the ones observed in mitogen-induced blast cells. Nonetheless, these blastlike cells did not proliferate. SCE did not interfere with mitogen binding to cell receptors. Moreover, SCE was unable to induce or activate suppressor cells, and its primary target cell was the unresponsive lymphoid cell itself. The inhibitory effect of SCE was early and irreversible. The differential activity of SCE can be correlated with an early [3H]uridine uptake, which was inhibited 6 hours later, as seen for the other biochemical parameters of cell activation. Also, SCE altered membrane-bound ATPase activities. Na,K-ATPase was strongly inhibited, whereas Ca2+-dependent and Mg2+-dependent ATPases were stimulated. These observations were discussed as an SCE-lymphocyte plasma membrane interaction translated into differential signals to the intracellular metabolic pathways.
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PMID:Nonspecific inhibitory activity of soluble human colon carcinoma extracts: tentative mechanism of action. 645 70

Short-chain fatty acids (SCFAs) are the major solutes and the major anions in the colonic lumen. We studied the response of suspended HT29-18-C1 cells (an epithelial cell line derived from a human colon carcinoma) to SCFA exposure. Cellular response was evaluated by measurement of cell volume (Coulter counter), intracellular pH [pHi; measured fluorometrically with 2',7'-bis(2-carboxyethyl)-5-(6)-carboxyfluorescein (BCECF)], and intracellular Na+, K+, and Cl- content (flame photometry and chloride titrator). Exposure to 130 mM propionate in isosmotic medium causes a rapid decrease in pHi and activates pHi recovery via amiloride-sensitive Na-H exchange. In the presence of propionate, Na-H exchange also causes cell swelling to a peak volume 11% above control cells and causes a 2.8-fold increase in intracellular Na+ content. After peak swelling, a regulatory-volume decrease (RVD) significantly reduced volume and intracellular Na+ returned to baseline. Other SCFAs (acetate, butyrate, and valerate) also elicit swelling and RVD. Activation of the Na(+)-K(+)-adenosinetriphosphatase (ATPase) is required to return Na+ to normal levels and to indirectly provide ion gradients required for propionate-induced RVD, but Na(+)-K(+)-ATPase activity does not directly mediate RVD. When 1 mM 4-acetamido-4'-isothiocyanostilbene-2,2'-disulfonic acid (SITS) is added in the presence of propionate, RVD was inhibited and cell Na+ content increased. Cl- depletion inhibited propionate-induced RVD and diminished the effect of SITS.
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PMID:Propionate activates multiple ion transport mechanisms in the HT29-18-C1 human colon cell line. 821 77

To gather further insight into the interaction between P-glycoprotein (Pgp) and its substrates, 167 compounds were analyzed in multidrug resistant human colon carcinoma cells. These compounds were selected from the National Cancer Institute Drug Screen repository using computer-generated correlations with known Pgp substrates and antagonists. The compounds were prospectively defined as Pgp substrates if cytotoxicity was increased > or =4-fold by the addition of cyclosporin A (CsA) and as Pgp antagonists if inhibition of efflux increased rhodamine accumulation by 4-fold. Among the 84 agents that met either criterion, 35 met only the criterion for substrates, 42 met only the criterion for antagonists, and only seven met both criteria. Thus, compounds interacting with Pgp form two distinct groups: one comprising cytotoxic compounds that are transported and have poor or no antagonistic activity and a second comprising compounds with antagonistic activity and no evidence of significant transport. Vinblastine accumulation and kinetic studies performed on a subset of 18 compounds similarly differentiated substrates and antagonists, but inhibition of 3H-azidopine labeling and induction of ATPase activity did not. These data support an emerging concept of Pgp in which multiple regions instead of specific sites are involved in drug transport.
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PMID:P-glycoprotein substrates and antagonists cluster into two distinct groups. 918 69

In order to define extracellular localized epitopes of Hsp70 on human tumor cells which are accessible to the immune system, six commercially available Hsp70-specific monoclonal antibodies (mAb) with different recognition sites were examined by immunological approaches. The recognition pattern of these antibodies was analyzed on purified recombinant Hsp70 proteins (rHsp70, Hsc70, DnaK), on lysates of Hsp70-expressing colon carcinoma cells (CX+) and on lysates of M21 rat-1 cells that overexpress human Hsp70 or Hsp70 fragments: ABgl (del 120-428) consisting of the C-terminal part and ASma (del 438-618) consisting of the N-terminal part of human Hsp70. All antibodies reacted equally well with rHsp70 and cytoplasmic Hsp70 derived from human tumor cells or M21 rat-1 cells. Only one antibody (MA3-007; Hsp70, Hsc70) detects a region localized within the ATPase domain of Hsp70 (amino acid 122-264) and reacts positively with the C-terminal deletion mutant ASma. All other antibodies, including RPN1197 are directed against the C-terminal peptide binding domain of Hsp70 and react positively with the N-terminal deletion mutant ABgl. Although all six antibodies detect full-length Hsp70 protein, derived from plasma membrane fractions of CX+ tumor cells, cell surface expressed Hsp70 on viable CX+ tumor cells, as determined by flowcytometry, is only recognized with the antibodies MA3-006 (Hsp70, Hsc70; 504-617), MA3-009 (Hsp70; 504-617) and RPN1197 (Hsp70). An estimation of the ratio of membrane-bound to cytoplasmic Hsp70 molecules revealed that 15-20% of total Hsp70 molecules are expressed on the plasma membrane. This tumor-selective cell surface expression of Hsp70 correlates with an increased sensitivity to lysis mediated by non-MHC restricted natural killer (NK) cells. We demonstrate that only antibodies directed against membrane-bound Hsp70 (MA3-006, MA3-009, RPN1197) inhibit NK-killing activity against Hsp70-expressing tumor cells. Taken together our data indicate that at least the C-terminal region 504-617, that contains at least one single alpha-helix (amino acid 512-536), has to be localized extracellularly and might be of importance for an NK-mediated anti-tumor immune response.
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PMID:Definition of extracellular localized epitopes of Hsp70 involved in an NK immune response. 958 77

Twenty-one 2-chloro-N10-substituted phenoxazines have been synthesized and characterized as potential modulators of multidrug resistance (MDR). Many of the compounds, at a concentration of 100 microM, enhanced accumulation of vinblastine (VLB) in drug-resistant KB8-5 cells to a greater extent than the same concentration of verapamil (VRP). However, the effects on VLB accumulation were specific, because these derivatives had little activity in the parental drug-sensitive line KB3-1. The compounds slowed the efflux of VLB from KB8-5 cells, suggesting that the chlorophenoxazines, like VRP, can inhibit P-glycoprotein (P-gp)-mediated efflux of VLB from this cell line. Two of the chlorophenoxazine derivatives, and also VRP, were able to stimulate the vanadate-sensitive ATPase activity attributable to P-gp in membranes isolated from MDR1 baculovirus-infected Sf9 cells. This result suggests that these modulators exert their effect by directly interacting with P-gp. Apart from the parent unsubstituted molecule, 2-chlorophenoxazine, there was a good correlation between log10P and the ability of the compounds to enhance VLB accumulation in KB8-5. This suggests that lipophilicity of a modulator is important, but is not the sole determinant of potency. Within this series of compounds, the optimal structural features for MDR modulation include a hydrophobic phenoxazine ring with a -Cl atom in the C-2 position and a tertiary amine group four carbons from the tricyclic ring. Many of the agents at the IC10 concentration completely reversed the 37-fold VLB resistance in KB8-5 cells. The most active agents in KB8-5 were able to partially reverse VLB resistance in an MDR colon carcinoma cell line GC3/c1 and completely reversed the 86-fold VLB resistance in the MDR1-overexpressing breast carcinoma cell line BC19/3. These same agents could only partially sensitize BC19/3 cells to taxol and doxorubicin, suggesting that the chlorophenoxazine derivatives show some specificity for modulating VLB resistance.
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PMID:Characterization of 2-chloro-N10-substituted phenoxazines for reversing multidrug resistance in cancer cells. 961 55

One major form of multiple drug resistance (MDR) to cancer therapeutic agents is mediated by overexpression of P-glycoprotein, a membrane ATPase that serves as a drug efflux pump. In humans, this protein is the product of the MDR1 gene. We have used chemically modified antisense oligonucleotides to reduce expression of P-glycoprotein in multidrug-resistant fibroblasts and colon carcinoma cells. Although several types of oligonucleotides were tested, compounds having a phosphorothioate backbone and a methoxyethoxy (ME) group at the 2' position of the ribose ring proved to have the greatest potency. Thus, phosphorothioate 2'-ME oligonucleotides directed against either the AUG codon region or the stop codon region of the MDR1 message produced substantial (50-70%) inhibition of P-glycoprotein expression at concentrations of < or = 50 nM. In addition, such treatment resulted in augmented drug uptake as measured by flow cytometry. Unmodified phosphorothioate compounds of the same sequence were active only in the micromolar range. We also tested the ability of several potential delivery agents to enhance the pharmacological effectiveness of anti-MDR1 oligonucleotides. Both commercial Lipofectin, a well known liposomal transfection agent, and a liposomal preparation based on a novel "facial amphiphile" were effective in enhancing their pharmacological effects of antisense oligonucleotides. A Starburst dendrimer, a type of cationic polymer, was also effective in oligonucleotide delivery. This report emphasizes that significant improvements in antisense pharmacology can be made through judicious use of both chemical modifications of oligonucleotides and appropriate delivery systems.
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PMID:Novel chemically modified oligonucleotides provide potent inhibition of P-glycoprotein expression. 965 87

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