Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.3.44 (P-glycoprotein)
 13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A variant of the multidrug-resistant human sarcoma cell line Dx5 was derived by co-selection with doxorubicin and the cyclosporin D analogue PSC 833, a potent inhibitor of the multidrug transporter P-glycoprotein. The variant DxP cells manifest an altered phenotype compared with Dx5, with decreased cross-resistance to Vinca alkaloids and no resistance to dactinomycin. Resistance to doxorubicin and paclitaxel is retained. The multidrug resistance phenotype of DxP cells is not modulated by 2 microM PSC 833 or cyclosporine. DxP cells manifest a decreased ability to transport [3H]cyclosporine. DNA heteroduplex analysis and sequencing reveal a mutant mdr1 gene (deletion of a phenylalanine at amino acid residue 335) in the DxP cell line. The mutant P-glycoprotein has a decreased affinity for PSC 833 and vinblastine and a decreased ability to transport rhodamine 123. Transfection of the mutant mdr1 gene into drug-sensitive MES-SA sarcoma cells confers resistance to both doxorubicin and PSC 833. Our study demonstrates that survival of cells exposed to doxorubicin and PSC 833 in a multistep selection occurred as a result of a P-glycoprotein mutation in transmembrane region 6. These data suggest that Phe335 is an important binding site on P-glycoprotein for substrates such as dactinomycin and vinblastine and for inhibitors such as cyclosporine and PSC 833.
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PMID:Multidrug-resistant human sarcoma cells with a mutant P-glycoprotein, altered phenotype, and resistance to cyclosporins. 903 18

P-glycoprotein expression in lymphoid malignancies has the potential to compromise the efficacy of many therapeutic regimens using anthracyclines, glucocorticoids, and Vinca alkaloids. All three classes of drugs are transported by P-glycoproteins. We have explored the possibility that modified steroids could serve a dual purpose, as glucocorticoid receptor agonists and P-glycoprotein inhibitors. Substitution of such steroids for those currently in use would help to overcome the selective advantage held by cells expressing P-glycoproteins. 17-Deoxydexamethasone and dichlorisone were modified by the addition of a dimethylamino benzoate group at the 21-carbon atom of the steroids. The two resulting steroids, SA47 and SA450, were potent glucocorticoid receptor agonists also capable of inhibiting the human P-glycoprotein with an efficiency equal to that of verapamil. Thus, both compounds are examples of steroids that could potentially serve as beneficial substitutions for dexamethasone or prednisolone in the chemotherapy of lymphomas and leukemias.
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PMID:Chemosensitizing steroids: glucocorticoid receptor agonists capable of inhibiting P-glycoprotein function. 904 51

An attempt was made to isolate resistant sublines of acute myelogenous leukemia (OCI/ AML-2) cells by chronic exposure to gradually increasing concentrations of daunorubicin in order to determine the mechanism of its resistance to this drug. Four daunorubicin-resistant sublines, AML-2/D100, /D250, /D500, and /D1,000 were isolated. The values of relative resistance of each daunorubicin-resistant AML subline were about 3, 6, 18, and 23-fold, respectively, as compared to the AML-2 line with an IC50 of 5 nM. The daunorubicin-resistant AML-2 sublines also showed cross resistance to various anticancer drugs including another anthracycline doxorubicin, a Vinca alkaloid vincristine, and an epipodophyllotoxin etoposide. A functional assay using flow cytometry showed decreased accumulation of daunorubicin in these sublines as compared to that of AML-2, which was reversed by cyclosporin A or cyanide. The development of the ATP-dependent multidrug resistant phenotype was due to low to high levels of expression of P-glycoprotein (PGP). The major mechanisms of increased PGP appears to be associated with gene amplification. In addition, other mechanisms such as increased stability of protein or mRNA might be involved depending on the concentration of daunorubicin used for selection. However, a multidrug resistance-associated protein (MRP) was not involved in these resistant sublines. These daunorubicin-resistant AML-2 sublines could provide a useful model for the study of multidrug resistance mediated by PGP.
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PMID:Isolation and characterization of daunorubicin-resistant AML-2 sublines. 916 28

Vinflunine (VFL) is a novel derivative of vinorelbine (NVB, Navelbine), which has shown markedly superior antitumor activity to NVB, in various experimental animal models. To establish whether this new Vinca alkaloid participates in P-glycoprotein (Pgp)-mediated multidrug resistance (MDR), VFL-resistant murine P388 cells (P388/VFL) were established in vivo and used in conjunction with the well established MDR P388/ADR subline, to define the in vivo resistance profile for VFL. P388/VFL cells proved cross-resistant to drugs implicated in MDR (other Vinca alkaloids, doxorubicin, etoposide), but not to campothecin or cisplatin and showed an increased expression of Pgp, without any detectable alterations in topoisomerase II or in glutathione metabolism. The P388/ADR cells proved cross-resistant to VFL both in vivo and in vitro, and this VFL resistance was efficiently modulated by verapamil in vitro. Cellular transport experiments with tritiated-VFL revealed differential uptake by P388 sensitive and P388/ADR resistant cells, comparable with data obtained using tritiated-NVB. In various in vitro models of human MDR tumor cells, whilst full sensitivity was retained in cells expressing alternative non-Pgp-mediated MDR mechanisms, cross resistance was identified in Pgp-overexpressing cells. Differences were, however, noted in terms of the drug resistance profiles relative to the other Vinca, with tumor cell lines proving generally least cross-resistant to VFL. Overall, these results suggest that VFL, like other Vinca alkaloids, participates in Pgp-mediated MDR, with tumor cells selected for resistance to VFL overexpressing Pgp, yet MDR tumor cell lines proved generally less cross resistant to VFL relative to the other Vinca alkaloids.
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PMID:Vinflunine (20',20'-difluoro-3',4'-dihydrovinorelbine), a novel Vinca alkaloid, which participates in P-glycoprotein (Pgp)-mediated multidrug resistance in vivo and in vitro. 974 May 39

Several lipophilic, cytotoxic drugs, or both, (including anticancer drugs [Vinca alkaloids, doxorubicin, cyclosporin A, and digoxin]) have proven to be actively effluxed by P-glycoprotein (P-gp) expressed at the luminal membrane of the brain capillary endothelial cells, resulting in the very low apparent blood-brain barrier (BBB) permeation of these P-gp substrates from the blood circulating to the brain. In rats inoculated with 9L-glioma cells into the brain, the endothelial cells of tumor-associated vessels allowed easy penetration of anticancer drugs (ranimustine and doxorubicin) in tumor regions, although the normal BBB function still operated at the normal brain region to provide a barrier to the accumulation of P-gp substrates. A detailed knowledge of the BBB function would be very helpful in developing improved delivery systems of anticancer drugs to brain tumors.
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PMID:P-glycoprotein-mediated efflux transport of anticancer drugs at the blood-brain barrier. 978 Jan 40

The multiple drug resistance (MDR) gene P-glycoprotein product is a transmembrane efflux pump that prevents toxicity of a variety of chemotherapeutic agents, including the anthracyclines, Vinca alkaloids, podophyllins, and taxol. The bone marrow toxicity of these drugs is due to the low or absent expression of MDR in marrow cells. Transfer and expression of the human MDR gene into bone marrow progenitors should prevent this toxicity. We report here the efficient transfer and expression of the MDR gene by retroviral-mediated gene transfer into CD34(+) cells isolated from peripheral blood progenitor cells (PBPCs), comparable to that obtained using bone marrow-derived progenitors. Optimal MDR transduction of these PBPC-derived cells requires exposure to growth factors and a period of preincubation. In addition, we demonstrate that we can transduce up to 100% of progenitor cells derived from PBPCs and can protect up to 25% of these progenitors from a dose of taxol toxic to untransduced controls.
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PMID:Retroviral transfer and expression of the human multiple drug resistance (MDR) gene in peripheral blood progenitor cells. 981 43

Resistance to antimitotic agents is caused by decreased accumulation, altered tubulin, altered microtubule-associated proteins and increased metabolism. Vinca alkaloids, paclitaxel and docetaxel are actively effluxed by P-glycoprotein and/or the MRP1. Decreased intracellular accumulation is one of the major determinants of resistance to antimitotic agents. Increased tubulin levels and a decreased polymerization ratio were observed in resistant cells. Increased acetylation of tubulin and altered intracellular distribution of tubulin were also observed in resistant cells; however, the relationship between the function of tubulin and resistance remains unclear. The expression of each beta-tubulin isotype (beta 1-beta 6) is altered in resistant cells, but the functional differences among the isotypes have not been clarified. Recent evidence has demonstrated the alteration of binding properties of antimitotic agents in resistant cells. Therefore, the altered expressions of tubulin isotypes and related molecules might influence the antimitotic action and adverse events by antimitotic agents. Taxanes are metabolized and inactivated by p450 isozymes, and this is related to drug-resistant to taxanes.
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PMID:Cytoskeletons and antimitotic agents developed in Japan. 1040 40

Resistance to chemotherapeutic agents is a major cause of treatment failure in patients with cancer. The primary mechanism leading to a multidrug-resistant phenotype is assumed to be plasma-membrane localized overexpression of drug efflux transporters, such as P-glycoprotein (P-gp). However, acidic intracellular organelles can also participate in resistance to chemotherapeutic drugs. In this study, we investigated, both experimentally and theoretically, the effect of acidic vesicle turnover on drug resistance. We have developed a general model to account for multiple mechanisms of resistance to weakly basic organic cations, e.g. anthracyclines and Vinca alkaloids. The model predicts that lower cytosolic concentrations of drugs can be achieved through a combination of high endosomal turnover rates, a low endosomal pH, and an alkaline-inside pH gradient between cytosol and the extracellular fluid. Measured values for these parameters have been inserted into the model. Computations using conservative values of all parameters indicate that turnover of acidic vesicles can be an important contributor to the drug-resistant phenotype, especially if vesicles contain an active uptake system, such as H+/cation exchange. Even conservative estimates of organic cation-proton antiport activity would be sufficient to make endosomal drug extrusion a potent mechanism of resistance to weakly basic drugs. The effectiveness of such a drug export mechanism would be comparable to drug extrusion via drug pumps such as P-gp. Thus, turnover of acidic vesicles can be an important factor in chemoresistance, especially in cells that do not overexpress plasma membrane-bound drug pumps like P-glycoprotein.
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PMID:pH and drug resistance. II. Turnover of acidic vesicles and resistance to weakly basic chemotherapeutic drugs. 1079 75

Despite accumulating evidence that multidrug resistance transporter proteins play a part in drug resistance in some clinical cancers, it remains unclear whether the relatively low levels of multidrug resistance transporter expression found in most untreated tumors could substantially affect their basal sensitivity to antineoplastic drugs. To shed light on this problem, the drug sensitivities of wild-type mouse cell lines were compared with those of lines in which the Mdr1a and Mdr1b genes encoding P-glycoprotein (P-gp) were inactivated and lines in which the Mrp1 gene was inactivated in addition to Mdr1a and Mdr1b. These models permit a clean dissection of the contribution of each transporter to drug resistance at expression levels similar to those in normal tissues and avoid complications that might arise from previous exposure of cell lines to drug selection. For substrate drugs, we found that these contributions can indeed be very substantial. Lines lacking functional P-gp were, on average, markedly more sensitive to paclitaxel (16-fold), anthracyclines (4-fold) and Vinca alkaloids (3-fold). Lines lacking both P-gp and Mrp1 were (compared with wild-type lines) hypersensitive to an even broader array of drugs, including epipodophyllotoxins (4-7-fold), anthracyclines (6-7-fold), camptothecins (3-fold), arsenite (4-fold) and Vinca alkaloids, especially vincristine (28-fold). Thus, even very low levels of P-gp and Mrp1 expression that may be difficult to detect in tumors could significantly affect their innate sensitivity to a wide range of clinically important substrate drugs. An implication is that the use of resistance reversal agents to sensitize drug-naive tumors may be appropriate in more cases than is presently appreciated.
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PMID:Extensive contribution of the multidrug transporters P-glycoprotein and Mrp1 to basal drug resistance. 1105 71

Multidrug resistance to chemotherapy is a major obstacle in the treatment of cancer patients. The best characterised mechanism responsible for multidrug resistance involves the expression of the MDR-1 gene product, P-glycoprotein. However, the resistance process is multifactorial. Studies of multidrug resistance mechanisms have relied on the analysis of cancer cell lines that have been selected and present cross-reactivity to a broad range of anticancer agents. This work characterises a multidrug resistant cell line, originally selected for resistance to the Vinca alkaloid vincristine and derived from the human erythroleukaemia cell K562. This cell line, named Lucena 1, overexpresses P-glycoprotein and have its resistance reversed by the chemosensitisers verapamil, trifluoperazine and cyclosporins A, D and G. Furthermore, we demonstrated that methylene blue was capable of partially reversing the resistance in this cell line. On the contrary, the use of 5-fluorouracil increased the resistance of Lucena 1. In addition to chemotherapics, Lucena 1 cells were resistant to ultraviolet A radiation and hydrogen peroxide and failed to mobilise intracellular calcium when thapsigargin was used. Changes in the cytoskeleton of this cell line were also observed.
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PMID:Multidrug resistance in tumour cells: characterization of the multidrug resistant cell line K562-Lucena 1. 1124 70


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