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)

The way in which the lectins concanavalin A (Con A) and Ricinus communis agglutinin (Ricin) alter the K+ content of Ehrlich ascites tumor cells was investigated. Unidrectional and net fluxes were determined in unwashed cells during a time course following lectin addition. Total influx, ouabain sensitive influx, Mg++- and Na+-K+-ATPase activity were all unaffected. Cell ATP content was normal for at least 19 minutes after exposure to Con A. Early after contact with Ricin or Con A efflux was stimulated 2-3-fold, resulting in net K+ loss, but after 20 minutes efflux had returned to normal. Ricin and Con A acted similarly although Ricin was present at only 1/50 the concentration of Con A. When the findings are evaluated together with previous work it is suggested that a particular membrane glycoprotein may be concerned in the efflux alteration observed.
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PMID:Nature of lectin-induced alteration of potassium transfer in Ehrlich ascites tumor cells. 13 11

We have previously shown that tomato lectin binds specifically to the 60-90 kDa membrane glycoprotein of parietal cell tubulovesicles, the beta-subunit of the gastric H+/K(+)-ATPase (proton pump) [Callaghan, Toh, Pettitt, Humphris & Gleeson (1990) J. Cell Sci. 95, 563-576; Toh, Gleeson, Simpson, Mortiz, Callaghan, Goldkorn, Jones, Martinelli, Mu, Humphris, Pettitt, Mori, Masuda, Sobieszczuk, Weinstock, Mantamadiotis & Baldwin (1990) Proc. Natl. Acad. Sci. U.S.A. 87, 6418-6422]. Here we have exploited this interaction for the development of a rapid single-step chromatography procedure for the purification of an active pig gastric proton pump complex. Initially, H+/K(+)-ATPase-enriched membranes, prepared from pig gastric microsomes by density-gradient centrifugation, were extracted in 1% Triton X-100 and passed through a 1 ml tomato lectin-Sepharose 4B column. The bound material, eluted with 20 mM-chitotriose, showed a major band with an apparent molecular mass of 95 kDa, and a faint broad band of 60-90 kDa, by SDS/PAGE. N-Glycanase treatment of the bound material resulted in the appearance of a 35 kDa band, the size of the protein core of the 60-90 kDa glycoprotein beta-subunit. The two components were identified as the 95 kDa alpha-subunit and the 60-90 kDa beta-subunit of the gastric H+/K(+)-ATPase, by immunoreactivity with monospecific antibodies, and by tryptic peptide sequences of the tomato-lectin-bound material. The beta-subunit was present in approximately equimolar amounts to the catalytic alpha-subunit. Whereas the gastric H+/K(+)-ATPase was not active after solubilization in 1% Triton X-100, solubilization of density-gradient-purified membranes in the non-ionic detergent, C12E8, followed by chromatography of the extract on tomato lectin-Sepharose 4B, resulted in the purification of the gastric H+/K(+)-ATPase complex which exhibited K(+)-dependent phosphatase activity. This is the first report of a rapid purification of a partially active solubilized gastric H+/K(+)-ATPase complex.
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PMID:Rapid purification of the gastric H+/K(+)-ATPase complex by tomato-lectin affinity chromatography. 131 70

Resistance of tumors to a variety of chemotherapeutic agents presents a major problem in cancer treatment. Resistance to such agents as doxorubicin, Vinca alkaloids, and actinomycin D can be acquired by tumor cells after treatment with a single drug. The gene responsible for multidrug resistance, termed mdr1, encodes a membrane glycoprotein (P-glycoprotein) that acts as a pump to transport various cytotoxic agents including various xenobiotics out of the cell. The amount of P-glycoprotein expression has been measured in tumor samples and was found to be elevated in intrinsically drug-resistant cancers of the colon, kidney, and adrenal as well as in some tumors that acquired drug resistance after chemotherapy. The protein was also found to be elevated in cells treated with xenobiotics. P-glycoprotein has been shown to bind anticancer drugs and several resistance-reversing agents including calcium channel blockers, and to be an ATPase. We recently reconstituted the purified P-glycoprotein into artificial liposomes. Reconstituted P-glycoprotein showed ATPase activity, ATP-dependent drug-transport activity, and calcium channel blocker-binding activity. This model provides many advantages for studies of the biochemical functions of P-glycoprotein. In addition to these basic interests, the protein is of considerable interest as a target for cancer chemotherapy because it appears to be involved in both acquired multidrug resistance and intrinsic drug resistance in human cancer. The selective killing of tumor cells expressing P-glycoprotein could be very important in future cancer therapy.
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PMID:Multidrug resistance: a transport system of antitumor agents and xenobiotics. 198 21

The development of cell polarity in Madin-Darby canine kidney (MDCK) cells has been analyzed under conditions in which cells are induced to form multicellular epithelial cysts in stages that mimic the ontogeny of epithelial tissues and organs in vivo. The morphogenesis of MDCK cysts in suspension culture or in a collagen gel proceeds in distinct stages involving the initial aggregation of cells followed by development of a closed monolayer of polarized epithelial cells that surrounds a central lumen. The polarity of cells was determined at each stage by analyzing the distributions of marker proteins of the apical (gp135) and basal-lateral (Na+,K(+)-ATPase) domains of the plasma membrane, the tight junction (ZO-1) and proteins involved in cell-cell (uvomorulin) and cell-substratum contact (type IV collagen). We show that cells have a distinctive and opposite polarity in cysts formed in suspension culture compared to those formed in collagen gels. In suspension culture, the basal-lateral membrane faces the central lumen and the apical membrane faces the outside, whereas in collagen gel, the basal-lateral membrane faces the outside collagen and the apical membrane faces the central lumen. Detailed analysis of the distributions of marker proteins during the morphogenesis of these three-dimensional structures indicates that: (1) cell-cell contact is sufficient to trigger the segregation of marker proteins of the apical and basal-lateral membrane domains to distinct regions of the membrane; (2) cell-cell contact induces association of the tight junction protein ZO-1 with the contact zone between cells; (3) localization of the tight junction protein ZO-1 to the apex of the lateral membrane and the establishment of the epithelial axis, however, requires the formation of a basal lamina and cell-substratum contact; (4) in suspension culture, MDCK cysts secrete and establish a basal lamina in the central lumen. These results show that cell-cell and cell-substratum contact have distinct roles in the morphogenesis of polarized epithelia. We suggest that the mechanisms involved in triggering cell polarity may be common to different polarized epithelia in vivo.
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PMID:Steps in the morphogenesis of a polarized epithelium. I. Uncoupling the roles of cell-cell and cell-substratum contact in establishing plasma membrane polarity in multicellular epithelial (MDCK) cysts. 235 99

We have identified the proteins specifically expressed in multidrug-resistant tumor cells and studied the functions of these proteins. The 170-to 180-kDa membrane glycoprotein (P-glycoprotein) is an ATPase which works as a pump molecule transporting chemotherapeutic drugs outside the resistant cells. The 22-kDa soluble protein (sorcin) is a calcium binding protein of unknown function. The 85-kDa membrane protein is specifically expressed in adriamycin-resistant cells and induced by treatment with adriamycin, suggesting a mechanism unique for adriamycin resistance. Our monoclonal antibodies to these proteins may well become useful tools for the diagnosis of clinical drug resistance.
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PMID:[Expression and function of proteins associated with multidrug resistance]. 256 2

170-180-kDa membrane glycoprotein (P-glycoprotein) associated with multidrug resistance is involved in drug transport mechanisms across the plasma membrane of resistant cells. From sequence analysis of cDNAs of the P-glycoprotein gene, it is postulated that the active drug-efflux pump function may be attributable to the protein. However, purification of the P-glycoprotein while preserving its enzymatic activity has not been reported. In this study, we have purified the P-glycoprotein from the human myelogenous leukemia K562 cell line resistant to adriamycin (K562/ADM) by means of one-step immunoaffinity chromatography using a monoclonal antibody against P-glycoprotein. The procedure was simple and efficiently yielded an electrophoretically homogeneous P-glycoprotein sample. By solubilization with 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate, the purified P-glycoprotein was found to have ATPase activity. This ATP hydrolysis may be coupled with the active efflux of anticancer drugs across the plasma membrane of multidrug-resistant cells.
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PMID:Purification of the 170- to 180-kilodalton membrane glycoprotein associated with multidrug resistance. 170- to 180-kilodalton membrane glycoprotein is an ATPase. 289 11

The Mr 170,000 to 180,000 membrane glycoprotein associated with multidrug resistance (P-glycoprotein) is involved in drug transport mechanisms across the plasma membrane of multidrug-resistant cells. We have recently reported the purification of P-glycoprotein. The purified P-glycoprotein was found to have an ATPase activity, which might be coupled with the active efflux of anticancer drugs. In the present study, we have further studied the properties of the P-glycoprotein ATPase activity by an immobilized enzyme assay procedure using a P-glycoprotein-antibody-Protein A-Sepharose complex. GTP was also hydrolyzed by the P-glycoprotein, although less efficiently than ATP. The ATPase activity of P-glycoprotein had an optimal pH range around neutrality (pH 6.5-7.4). The detergent concentration of 3-[(3-cholamidopropyl)dimethyl-ammonio]-1-propane sulfonate used for protein solubilization was essential for enzyme recovery. Maximum activity was obtained when 0.1-0.2% 3-[(3-cholamidopropyl)dimethyl-ammonio]-propane sulfonate was used, while higher concentrations markedly inhibited the ATPase activity. The ATPase activity was dependent on Mg2+; maximum activity was obtained at 2-10 mM. Manganese and cobalt could substitute for magnesium as ionic cofactors. Divalent cations such as Ca2+, Zn2+, Ni2+, Cd2+, and Cu2+ inhibited the Mg2+-catalyzed ATP hydrolysis. N-Ethylmaleimide and vanadate inhibited the ATPase activity, while sodium azide or ouabain had no effect. Anticancer agents such as vincristine and Adriamycin did not affect the enzyme activity. In contrast, verapamil and trifluoperazine, agents which inhibit active drug efflux and restore drug sensitivity in resistant cells, caused an increase in the P-glycoprotein ATPase activity suggesting that P-glycoprotein might be the target molecule of these agents.
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PMID:Characterization of the ATPase activity of the Mr 170,000 to 180,000 membrane glycoprotein (P-glycoprotein) associated with multidrug resistance in K562/ADM cells. 290 Jun 77

Some biochemical factors of the iris-ciliary body of the rabbit have been examined for effects induced by water-soluble marihuana-derived material (MDM). Adenylate cyclase activity and sensitivity to beta-adrenergic agonists were unchanged, as measured 4 hours after MDM administration in vivo. Magnesium-dependent and anion-sensitive, but not sodium-potassium, ATPase activities were inhibited 6 hours after MDM administration in vivo, although they were unaffected by in vitro incubation. Topical administration of a potent substance P antagonist had no effect on the time course or magnitude of intravenous MDM-induced ocular effects in rabbit. Intravenously administered sugars antagonized the effects of MDM on intraocular pressure. A variety of drugs which display a range of biochemical effects varying from beta-adrenergic receptor agonism, to alteration of glycoprotein residues were employed. None of the agents employed, ranging from cAMP modifiers to protein synthesis blockers, had any effect on the MDM-induced response. It is apparent that the mechanism underlying the ocular hypotensive effect of MDM does not reside in mediation through adenylate cyclase, ATPase or substance P, but rather through a mechanism mediated by terminal sugar moieties on the molecule. The data suggest that modification of the surface membrane glycoprotein residues on the ciliary epithelium can induce marked alterations in aqueous humor flow rate.
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PMID:Marihuana-derived material: biochemical studies of the ocular responses. 316 May 44

In the presence of thyroxine, human erythrocytes exposed to ozone exhibit enhanced osmotic fragility and the association of radio-activity from 125I-labeled thyroxine with the major membrane glycoprotein, glycophorin. These events are accompanied by enhanced cation permeability in the absence of either measurable inhibition of ATPase activity or membrane lipid peroxidation. It is suggested that the thyroid hormones may play a role in the expression of ozone toxicity.
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PMID:The potentiation of ozone toxicity by thyroxine. 725 80

The development of procoagulant activity and microparticle formation during platelet activation is known to depend on an increase in cytosolic Ca2+ levels. We have studied the mechanisms leading to these events using FITC-labeled recombinant annexin V, a protein which binds with a high affinity to aminophospholipids, in flow cytometry. In particular, we show that the Ca(2+)-ATPase inhibitors thapsigargin and cyclopiazonic acid are as potent inducers of aminophospholipid exposure and microparticle formation as the ionophore A23187. In contrast, 2,5-di-tert-butyl-1, 4-benzohydroquinone induced negligible microparticle formation, although platelets abundantly bound annexin V-FITC. That platelet activation had occurred was confirmed by binding studies with VH10, a monoclonal antibody specific for the alpha-granule membrane glycoprotein GMP-140, and by prothrombinase activity measurements. These results demonstrate that microvesiculation is not an automatic response to aminophospholipid exposure. The Ca(2+)-ATPase inhibitors induced different intracellular Ca2+ levels as measured using fluo-3 as a calcium dye. These were 10 +/- 4 microM (n = 11) for thapsigargin (3 microM), 19.6 +/- 2.2 microM (n = 8) for cyclopiazonic acid (100 microM), and 0.619 +/- 0.137 microM (n = 8) for 2,5-di-tert-butyl-1,4-benzohydroquinone (100 microM). Calpain activity, as assessed in platelets by analyzing the degradation of cytoskeletal proteins, was only observed with agents that stimulated microparticle formation. Phospholipid transbilayer movement was studied by measuring annexin V binding during platelet activation. Results showed that aminophospholipid exposure induced by ionophore A23187 (t1/2 = 133 +/- 14 s) was more rapid than that induced by TG (t1/2 = 280 +/- 30 s), although the rate-limiting step in the assay was the binding of annexin V to activated platelets (t1/2 = 70-80 s). Interestingly, the presence of annexin V itself during the activation inhibited microparticle formation, although degradation of platelet proteins by calpain continued to occur. Our results clearly show (i) that aminophospholipid exposure and platelet microvesiculation are independent but closely regulated events and (ii) that while both processes are associated with an increase in intracellular Ca2+, microvesiculation additionally requires Ca(2+)-induced calpain activation and a fusion process inhibited by annexin V.
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PMID:Calcium involvement in aminophospholipid exposure and microparticle formation during platelet activation: a study using Ca2+-ATPase inhibitors. 754 94

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