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)

This paper describes the cellular and tissue distribution of P-glycoprotein (P-GP) (mdr1 gene product), the role of P-GP in vivo and immunodiagnosis of multi-drug-resistant cancers. We mainly used MRK 16 monoclonal antibody (MAb) reactive with P-GP. P-GP was found to be expressed very strongly in the adrenal cortex of adults and strongly in the renal tubules of the kidney, capillary blood vessels of the brain, and also in placenta. Interestingly, P-GP was not distributed in fetal and neonatal adrenals, and thus may be closely related to adrenal maturation. A high level of P-GP expression was also seen in all cases of functional hormone-producing adrenal tumor, one case of insulinoma, two cases of untreated colonic cancer, one case each of untreated lung cancer, gastric cancer and breast cancer, six cases of renal cell carcinoma and 17 cases of bladder cancer. Using flow cytometry and immunocytochemistry, we investigated the reactivity of MRK 16 MAb with peripheral human mononuclear cells (mainly blastic cells and lymphocytes) from 31 patients with leukemia or malignant lymphoma. Reactivity with MRK 16 MAb was observed in five cases. Some cases reflected the prior administration of adriamycin, vincristine and VP-16, which are known to induce P-GP expression. P-GP-MRK 16-protein A-Sepharose complex derived from human adrenal possessed marked ATPase activity. These data suggest that P-GP may play a physiological role in the human adrenal. Finally, diagnostic criteria of multi-drug-resistant cancers are presented.
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PMID:Expression and functions of P-glycoprotein (mdr1 gene product) in normal and malignant tissues. 197 61

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

We have determined the sequence of the human mdr3 gene using cDNA derived from liver RNA. The mdr3 gene codes for a member of a family of membrane proteins, the P-glycoproteins, overproduced in many multi-drug-resistant (MDR) cell lines. Like its relatives, the protein encoded by mdr3 has a deduced Mr of 140,000, which is presumably increased by glycosylation after synthesis. The sequence consists of two similar halves, each with a series of six hydrophobic segments that may form a membrane channel. The halves also possess nucleotide-binding consensus sequences, which presumably act as ATPases and drive drug transport. The presumed ATPase domains are all but identical to those of the human mdr1 gene product [Chen et al., Cell 47 (1986) 381-389]. We attribute this high level of sequence conservation to the repeated gene conversion that is evident from segments in which mdr1 and mdr3 differ only in a few silent mutations. Divergence between P-glycoprotein family members is greatest at the N terminus and in the 60 amino acid linker connecting the two halves. In the putative trans-membrane domains approx. 80% of the amino acids are conserved between the products of mdr1 and mdr3. Although the function of mdr3 is not yet known, its high homology with mdr1 suggests that it also encodes an efflux pump with broad specificity.
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PMID:Sequence of mdr3 cDNA encoding a human P-glycoprotein. 290 14

The P-glycoprotein (Pgp), a plasma membrane protein overexpressed in multidrug-resistant tumor cells, is thought to be both an ATPase that actively exports cytotoxic drugs and a Cl- channel activated by cell swelling. The partial reversal of multidrug resistance by Cl- transport blockers suggests a possible role for Cl- in Pgp-mediated drug transport. We used multidrug-resistant Chinese hamster fibroblasts and human breast cancer cells expressing Pgp to study the roles of Cl- (and also Na+ and HCO3-/CO2) on Pgp-mediated efflux of the fluorescent dye rhodamine 123 (R123). In Pgp-expressing Chinese hamster fibroblasts, exposed to isosmotic solutions, the unidirectional efflux of R123 was not measurably changed by a approximately 60-min removal of Cl- (or by exposure to Na(+)-free, or nominally HCO3-/CO2-free medium); short term (2-3 min) ion substitutions were also ineffective. In human breast cancer cells transfected with human mdr1 cDNA, hyposmotic solutions activated a Cl- current but had no effect on the Pgp-mediated unidirectional efflux of R123. Additionally, in human breast cancer cells, the intracellular presence of R123 did not prevent activation of the Cl- current by hyposmotic solution. The lack of detectable effect of removal of Cl-, Na+, or HCO3- on Pgp-mediated R123 transport rules out direct coupling between substrate transport and transport of either of these ions by Pgp. The persistence of Pgp-mediated R123 efflux in osmotically swollen cells indicates that activation of the Pgp-associated Cl- current does not hinder the Pgp pump function. The lack of effect of R123 on swelling-activated Cl- current denotes that Pgp-mediated transport of organic substrates and Pgp-associated Cl- currents can occur at the same time in a single cell. These results underscore the dissociation between Pgp-mediated active drug transport and electrodiffusive Cl- transport.
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PMID:Relationships between rhodamine 123 transport, cell volume, and ion-channel function of P-glycoprotein. 751 Feb 82

Resistance of tumors to a variety of chemotherapeutic agents presents a major problem in cancer treatment. The gene responsible for multidrug resistance, termed mdr1, encodes a membrane glycoprotein (P-glycoprotein) that acts as a pump to transport various cytotoxic agents. The P-glycoprotein has been shown to bind anticancer drugs and several resistance-reversing agents including calcium channel blockers, and to be an ATPase. The P-glycoprotein was found to function in the blood-brain barrier. The physiological function of the P-glycoprotein in relation to therapy is discussed.
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PMID:[Mechanism of resistance to antitumor agents--its involvement in blood-brain barrier]. 756 98

Safingol is a lysosphingolipid protein kinase C (PKC) inhibitor that competitively interacts at the regulatory phorbol binding domain of PKC. We investigated the effects of safingol on antineoplastic drug sensitivity and PKC activity of MCF-7 tumor cell lines. Safingol treatment of 32P-labeled MCF-7 WT and MCF-7 DOXR cells inhibited phosphorylation of the myristoylated alanine-rich protein kinase C substrate in both cell lines, suggesting inhibition of cellular PKC. However, only in MCF-7 DOXR cells did safingol treatment increase accumulation of [3H]vinblastine and enhance toxicity of Vinca alkaloids and anthracyclines. Drug accumulation changes in MCF-7 DOXR cells treated with safingol were accompanied by inhibition of basal and phorbol 12,13-dibutyrate-stimulated phosphorylation of P-glycoprotein (P-gp). Expression of P-gp and levels of mdr1 message in MCF-7 DOXR cells were not altered by safingol treatment alone or in combination with vinblastine. Treatment of MCF-7 DOXR cell membranes with safingol did not inhibit [3H]vinblastine binding or [3H]azidopine photoaffinity labeling of P-gp. Furthermore, safingol did not stimulate P-gp ATPase activity in membranes prepared from MCF-7 DOXR cells. We conclude that enhanced drug accumulation and sensitivity in MCF-7 DOXR cells treated with safingol are correlated with inhibition of PKC rather than competitive interference with P-gp drug binding through direct interaction with P-glycoprotein.
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PMID:Partial inhibition of multidrug resistance by safingol is independent of modulation of P-glycoprotein substrate activities and correlated with inhibition of protein kinase C. 759 89

The human multidrug resistance protein, or P-glycoprotein (Pgp), exhibits a high-capacity drug-dependent ATP hydrolytic activity that is a direct reflection of its drug transport capability. This activity is readily measured in membranes isolated from cultured insect cells infected with a baculovirus carrying the human mdr1 cDNA. The drug-stimulated ATPase activity is a useful alternative to conventional screening systems for identifying high-affinity drug substrates of the Pgp with potential clinical value as chemosensitizers for tumor cells that have become drug resistant. Using this assay system, a variety of drugs have been directly shown to interact with the Pgp. Many of the drugs stimulate the Pgp ATPase activity, but certain drugs bind tightly to the drug-binding site of the Pgp without eliciting ATP hydrolysis. Either class of drugs may be useful as chemosensitizing agents. The baculovirus/insect cell Pgp ATPase assay system may also facilitate future studies of the molecular structure and mechanism of the Pgp.
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PMID:Drug-stimulated ATPase activity of the human P-glycoprotein. 762 50

Cation-transport properties were compared in a human leukemic cell line (K562) and its vincristine-selected, mdr1-gene-expressing sublines (K562/Vcr30 and K562/Vcr150) by the capacity of the cells to accumulate the potassium analogue thallium (201Tl). Determination of the time course of thallium accumulation in the absence and presence of ouabain, an inhibitor of sodium-potassium adenosine triphosphatase (ATPase), showed that the initial (at 20 min) rate of ouabain-resistant uptake was about 70% higher in the K562/Vcr30 cells than in the parental line. The maximal rate (Vmax) of ouabain-resistant uptake was 78 mmol/h for K562 cells and 115 mmol/h for K562/Vcr30 cells, and the Michaelis constant (Km) was 0.37 and 0.18 mmol, respectively. Bumetanide (50 microM), a specific inhibitor of ouabain-resistant Na-K-Cl cotransport, inhibited the elevated 201Tl uptake in K562/Vcr150 cells but had no effect on cellular vincristine accumulation. Incubation with different multidrug resistance (MDR)-reversing agents (verapamil as well as cyclosporin A and its analogue PSC833) had no significant effect on 201Tl uptake. Membrane depolarization by an elevation of the potassium concentration in the incubation medium did not affect vincristine accumulation in any cell line, which indicated that the changed drug-transport properties in mdr1-gene-expressing cells were not due to membrane hyperpolarization. It was concluded that P-glycoprotein-positive cells have a more efficient ouabain-resistant cation-transport mechanism than to cells without P-glycoprotein. A functional relationship between this phenomenon and MDR was not identified.
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PMID:Increased cation transport in mdr1-gene-expressing K562 cells. 772 Jan 83

The contribution of P-glycoprotein (Pgp) to multidrug resistance in human solid tumors is generally estimated from bulk mRNA measurements or immunohistochemistry, while direct measurement of the effect of Pgp on intracellular drug concentrations has not been pursued. We investigated the feasibility and sensitivity of a method for probing Pgp-mediated drug transport in cells isolated from solid tumors, using xenograft models. Human tumor xenografts (XG) were grown by s.c. injection of Pgp-expressing cell lines 2780AD, BRO/mdr1 and KB8-5. Tumor uptake of doxorubicin (DOX) after administration of DOX to the mice was determined. XG from untreated mice were enzymatically dissociated. The effect of the Pgp modulator bepridil on steady-state cellular daunorubicin (DNR) and vincristine (VCR) accumulation and chemosensitivity of these XG cells was compared with its effects in the cell lines (CL). mdr1 mRNA and Pgp (by flow cytometry) were measured. Also, the dependence on intracellular ATP concentration, [ATP]i, of the modulator effect was determined in intact KB8-5 cells. The results showed that i.v. administration of DOX to the mice led to lower DOX levels in the Pgp-expressing XG than in the "sensitive" XG, suggesting the presence of an in vivo functional Pgp in these XG tumor models. Dissociated, viable XG cells appeared to have ATP levels sufficient to sustain Pgp-ATPase-coupled drug transport. This was inferred from experiments using KB8-5 CL, which showed half-maximal inhibition of DNR transport at an [ATP]i of 1 to 2 mM. The effect of bepridil on DNR and VCR accumulation and chemosensitivity in the XG cells was in accordance with the XG expression of mdr1/Pgp. In KB8-5 XG cells, Pgp function was hardly detectable, in accordance with decreased mdr1/Pgp expression in vivo. In conclusion, Pgp activity can be determined in freshly dissociated XG human tumor cells. The results obtained with the more necrotic KB8-5 XG may represent some of the interpretation problems arising when low levels of Pgp expression occur within a heterogeneous cell population, such as may be expected in clinical human tumors. Also our results indicate that Pgp activity may be impaired in vivo at [ATP]i below 2 mM, which are realistic values for human solid tumors.
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PMID:Correlation between functional and molecular analysis of mdr1 P-glycoprotein in human solid-tumor xenografts. 779 Jan 25

Resistance of tumors to a variety of chemotherapeutic agents presents a major problem in cancer treatment. The gene responsible for multidrug resistance, termed mdr1, encodes a membrane glycoprotein (P-glycoprotein) that acts as a pump to transport various cytotoxic agents. The P-glycoprotein has been shown to bind anticancer drugs and several resistance-reversing agents including calcium channel blockers, and to be an ATPase. The P-glycoprotein was found to function in blood-brain barrier. The implication of the P-glycoprotein in relation to therapy is discussed.
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PMID:[Structure and function of P-glycoprotein in antitumor agent resistance; implication for clinical setting]. 853 80


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