EC:3.6.3.44 - FACTA Search

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

A family of 10 thermoresistant cell lines cloned from Chinese hamster cells transfected with a plasmid containing the structural gene for the small human Mr 27,000 heat shock protein (HSP27) was used to assess the putative role of this heat shock protein in chemoresistance. These cells express varying amounts of human HSP27 in addition to the normal level of endogenous hamster HSP27. As previously observed in the case of thermoresistance, a significant positive linear correlation (P less than 0.05) was found between cell survival in response to doxorubicin and the total amount of HSP27 expressed. Some clones were also examined for resistance to other drugs and chemicals. A statistically significant increased survival relative to the parental cells was observed following treatment with daunorubicin (three clones studied), colchicine, vincristine, actinomycin D, hydrogen peroxide, and sodium arsenite (one clone studied). However, the clone which expressed the highest level of HSP27 was as sensitive as control cells to the cytotoxic action of bis-chloronitrosourea and 5-fluorouracil. The relationship between HSP27 overexpression and increased resistance to cytotoxic agents was also evaluated in three independent pooled cell populations stably transformed with both the human HSP27 and the xanthine-guanine phosphoribosyltransferase gene and selected on the basis of resistance to mycophenolic acid and aminopterin. The results indicated that these cells survived significantly better than the control cells transfected with the marker gene only when exposed to doxorubicin. HSP27-mediated cellular protection was not associated either with decreased drug accumulation or with overexpression of P-glycoprotein. It is suggested that HSP27 might be involved in some form of chemoresistance and could participate in the development of clinical resistance to antineoplastic drugs.
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PMID:Increased survival after treatments with anticancer agents of Chinese hamster cells expressing the human Mr 27,000 heat shock protein. 191 47

P388 leukemia sublines were isolated from leukemia-cell-bearing CD2F1 mice that had been treated in vivo with increasing amounts of diaziquone (AZQ). The sublines isolated for in vitro studies were AZQ19 and AZQ30 which corresponded to the 19th and 30th in vivo passages, respectively. The AZQ19 subline displayed a very low degree of resistance to AZQ (1.5-fold), whereas the AZQ30 subline was sensitive. Both sublines, however, had much higher degrees of resistance to Adriamycin than to AZQ (24-fold for AZQ30 cells and 10-fold for AZQ19 cells). Both cell lines were also more resistant to actinomycin D, colchicine, and vincristine than to AZQ. The AZQ19 line was resistant to the alkylator thio-TEPA to the same degree that it was to AZQ, but the AZQ30 line was sensitive to thio-TEPA. On the other hand, AZQ30 cells were resistant to hydrogen peroxide with a very low degree of resistance (1.27-fold, P less than 0.05), whereas the AZQ19 line was sensitive. Drug accumulation experiments indicated that AZQ-resistant cells differed from the parental line in that they did not accumulate Adriamycin or vinblastine. In the case of AZQ, however, resistant and parental lines accumulated the same amounts of exchangeable AZQ. Using the immunoblotting technique, no P-glycoprotein was found in resistant cells. The resistant lines consumed oxygen at greater rates than the parental line. Oxygen consumption (Mean +/- SD) in sensitive cells was 2.0 +/- 0.4% O2 consumed/min, whereas in resistant cells it was nearly 3.1 +/- 0.6% O2 consumed/min. The increase in oxygen consumption with drug resistance was statistically significant (P less than 0.01). The kinetics of production of hydroxyl free radicals and of AZQ free radicals were faster in the resistant lines reflecting, in essence, their increased oxygen consumption. It appears that the two sublines analyzed here show resistance mechanisms that may have been elicited by the two distinct chemical constituents of AZQ. Therefore, in the AZQ19-resistant line, the alkylating aspect of AZQ was emphasized, whereas in the AZQ30 line, the quinone and, thus, free radical aspect was emphasized. This is consistent with AZQ30 cells being sensitive to the alkylator thio-TEPA and resistant to hydrogen peroxide, and the AZQ19 line being resistant to thio-TEPA and sensitive to hydrogen peroxide. In addition, the AZQ30 cell line was relatively more resistant than the AZQ19 line to Adriamycin.
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PMID:In vitro multidrug resistance of P388 murine leukemia selected for resistance to diaziquone. 257 72

Deoxyspergualin, a synthetic analogue of the immunosuppressive anti-tumour antibiotic spergualin, has been shown to possess potent in vitro and in vivo anti-tumour activity and is currently in the National Cancer Institute (NCI) decision network. Deoxyspergualin shows similarities in properties and mechanisms of action to the natural-product immunosuppressive agents cyclosporin A and FK506, each of which can act as a modifier of multidrug resistance. We therefore decided to examine the comparative activity of deoxyspergualin in parent and multidrug-resistant cells. Deoxyspergualin contains the polyamine spermidine within its structure. Bovine serum copper amine oxidase catalyses the oxidative deamination of spermidine to produce an aminoaldehyde, ammonia and hydrogen peroxide. These aminoaldehydes are believed to be responsible for the toxicity of polyamines in vitro in the presence of bovine serum. For this reason, all experiments were carried out in medium containing bovine serum and in medium containing horse serum (which is low in copper amine oxidase content). We used the tetrazolium (MTT) colorimetric assay to determine drug sensitivity and tritiated daunorubicin accumulation together with inhibition of azidopine binding to study specific mechanisms of resistance modulation. The murine cell lines EMT6/P and EMT6/AR1.0 and the human cell lines H69/P and H69/LX4 were, respectively, 32-, 32-, 372- and 483-fold more sensitive to spermidine and 175-, 133-, 321- and 444-fold more sensitive to spermine in the presence of calf serum than in the presence of horse serum. However, these large differential effects were not seen for deoxyspergualin. It appears that in the presence of horse serum, deoxyspergualin may exert its effect by a mechanism other than polyamine oxidation. Deoxyspergualin did not enhance the accumulation of [3H]-daunorubicin in EMT6/AR1.0 cells. Furthermore, deoxyspergualin (1-20 microM) did not restore the sensitivity of EMT6/AR1.0 or H69/LX4 cells to that of the parent lines. P-glycoprotein (Pgp) in membranes prepared from H69/LX4 cells was photo-affinity-labeled with [3H]-azidopine. Deoxyspergualin did not inhibit this labeling. Although deoxyspergualin appears to exert its immunosuppressive effect via a mechanism similar to that of cyclosporin A and FK506, it does not share their ability to modify Pgp-mediated multidrug resistance. However, its lack of cross-resistance and potent in vivo anti-tumour activity make deoxyspergualin a promising candidate for development as an anti-cancer agent.
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PMID:The activity of deoxyspergualin in multidrug-resistant cells. 755 42

When the blood-brain barrier (BBB) transport of a series of model peptides that varied in their physicochemical properties (lipophilicity, size and hydrogen-bonding potential) was determined using an in situ rat brain perfusion technique, an unexpected increase in flux with increasing peptide concentration was observed with one of the peptides. Further, inclusion of verapamil in the perfusion medium also increased permeability of the peptides. These observations were consistent with the presence of a polarized efflux system in the BBB that was saturable, could be competitively inhibited and showed substrate specificity. Such properties are similar to those of P-glycoprotein (P-gp), an apically localized efflux pump that has recently been reported to be present in the endothelial cells that constitute the BBB, and suggest that P-gp may be responsible for this activity. By measuring the BBB transport of the model peptides in the presence of verapamil (a P-gp inhibitor), the intrinsic BBB permeabilities (due to passive diffusion only) were obtained. The presence of verapamil caused a significant increase in the BBB permeabilities of six of the seven model peptides. When the intrinsic permeability coefficients were correlated with several physicochemical parameters, it was shown that hydrogen bonding potential rather than lipophilicity had the greatest influence on the passive diffusion of these model peptides across the BBB. From these studies it can be concluded that inhibition of P-gp, as well as reduction of the hydrogen bonding potential, can be used as strategies to increase peptide transport across the BBB.
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PMID:The effect of verapamil on the transport of peptides across the blood-brain barrier in rats: kinetic evidence for an apically polarized efflux mechanism. 771 80

HL-60-R, a multi-drug-resistant (MDR) subclone of the human leukemia cell line HL-60, was selected in continuous culture in doxorubicin (DOX) in the absence of mutagenic agents. When compared to the parent line HL-60, HL-60-R showed greater relative resistance to vinblastine than to etoposide, or to the selecting agent DOX. Co-exposure to verapamil, a known modulator of MDR, partially increased its sensitivity to DOX and vinblastine. The HL-60-R cell line stained positively with the P-glycoprotein-specific monoclonal antibody (MAb), C219, whereas the HL-60 parent was negative. Southern analysis showed 32-fold amplification of the mdrI gene in HL-60-R, whereas slot-blot analysis demonstrated 70-fold over-expression of the specific mdrI message in HL-60-R compared to HL-60. Northern blot analysis revealed the presence of 2 species of messenger RNA of sizes 5.1 kb and 4.5 kb. No transcripts were detectable in the parent. Flow cytometric analysis showed significantly reduced cellular retention of DOX as well as rapid efflux from the drug-resistant cell line. HL-60-R proved to be nearly 4 times more resistant to hydrogen peroxide than its parent, and 1,000 times more resistant to inhibition of cellular glutathione synthesis by D,L-buthionine sulfoximine (BSO). Verapamil modulated DOX resistance in HL-60-R incompletely but, in the presence of glutathione depletion, nearly completely reversed DOX resistance. Elevated levels of glutathione and glutathione-peroxidase activity were demonstrated, thereby implicating enhanced activity of the glutathione/glutathione-peroxidase cycle as an additional basis for its resistance to DOX. These findings suggest that an enhanced capacity for detoxifying oxyradicals may contribute to anthracycline resistance in acute leukemia.
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PMID:P-glycoprotein and alterations in the glutathione/glutathione-peroxidase cycle underlie doxorubicin resistance in HL-60-R, a subclone of the HL-60 human leukemia cell line. 809 91

The substituents of drug molecules and the specific amino acid residues of P-glycoprotein (P-gp) implicated in drug/protein interactions are largely unknown. We have used a series of colchicine analogs modified on the A, B, and C rings to identify the discrete chemical groups on the colchicine molecule that are required for recognition by P-gp. For this, the toxicity of these analogs was tested on independent cell clones expressing either of the two mouse mdr genes, mdr1 and mdr3, known to confer multidrug resistance. Modifications of the methoxy groups on the A and C rings modulated cellular toxicity but had no effect on P-gp recognition; however, modifications at the C7 position of the B ring, in particular the removal of the nitrogen atom of the acetamido group, had a dramatic effect. Analogs bearing a hydrogen at that position were not substrates for P-gp. The importance of the nitrogen at C7 was independently verified in thiocolchicine and allocolchicine analogs similarly modified, although overall levels of resistance to these compounds were somewhat reduced compared to their colchicine counterparts. The study of allocolchicine congeners bearing a six-carbon C ring and of two other analogs completely lacking a B ring suggested that intact B and C rings were important for interaction with P-gp. These results suggest that the structural determinants for cytotoxicity (tubulin binding) and P-gp recognition map to nonoverlapping sites in the colchicine analogs analyzed. Examination of calculated molar refractivities (CMR) revealed that only compounds showing CMR values greater than 9.7 were P-gp substrates.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The nitrogen of the acetamido group of colchicine modulates P-glycoprotein-mediated multidrug resistance. 810 Jan 49

Proton nuclear magnetic resonance spectroscopy was performed on whole cells to study lipids and metabolites in Adriamycin- and Taxol-resistant K562 cells expressing multidrug resistance (MDR) and their sensitive counterparts. With one-dimensional spectra, both resistant cell lines showed lower fatty acid methylene:methyl ratios and higher choline:methyl ratios than sensitive cells. Using two-dimensional COSY spectra, a decrease in the glutamine content was evidenced in resistant cells. When these cells were maintained in culture medium without the drug, the fatty acid signals were partially recovered. Adriamycin-resistant K562 cells were also treated for 4 days with a high dose of verapamil, a MDR-reversing agent. The nuclear magnetic resonance spectra of verapamil-treated cells also showed partial recovery of fatty acid signals. These results could be paralleled with the reversion of the resistant phenotype, as evidenced by measuring the inhibiting concentration of Adriamycin and vinblastine in K562adr cells cultured without the drug or after short-term exposure to verapamil. Conversely, P-glycoprotein and mRNA expression and DNA amplification of the mdr gene were not modified when compared to resistant cells, suggesting that the MDR phenotype could be partially reversed independently of the mdr gene amplification and expression. These results demonstrate the role of lipids in the resistance phenomenon.
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PMID:Proton nuclear magnetic resonance spectroscopy reveals cellular lipids involved in resistance to adriamycin and taxol by the K562 leukemia cell line. 875 12

A hydroquinone-resistant derivative of the M1 cell line, designated M1HQ, was generated and used to evaluate the biochemical mechanism responsible for resistance to oxidative stress-inducing agents. The hydroquinone concentrations that were cytotoxic to 50 and 90% of the parental M1 cell line in 48 hr were 25 and 90 microM, respectively, whereas exposure to 500 microM hydroquinone did not decrease M1HQ viability significantly. M1HQ cells grew slower than M1 cells and exhibited significantly higher resistance to colchicine, doxorubicin, hydrogen peroxide, 4-hydroperoxycyclophosphamide, and 1,3-bis (2-chloroethyl)-1-nitrosourea but not to benzoquinone, vinblastine, or gamma-radiation. M1HQ cells possessed significantly higher levels of total thiols, glutathione, glutathione peroxidase, glutathione reductase, quinone reductase, and gamma-glutamyl transpeptidase than the parental M1 cell line. Steady-state gamma-glutamylcysteine synthetase mRNA expression also was 1.6-fold higher in M1HQ cells. P-glycoprotein transcripts were detectable in both M1 and M1HQ cells, but were 2-fold higher in M1HQ. Multidrug resistance-associated protein transcripts were not detectable in either M1 or M1HQ. Hydroquinone resistance in M1HQ cells was partially reversible with a combination of inhibitors of quinone reductase, gamma-glutamylcysteine synthetase, glutathione peroxidase, and the multidrug resistance-associated protein, but not with inhibitors of P-glycoprotein, gamma-glutamyl transpeptidase, or glutathione-S-transferase. When treated with [14C]hydroquinone, M1HQ cells did not generate significant hydroquinone-protein adducts but did release an adduct similar to N-acetylcysteinyl-benzoquinone. In contrast, numerous [14C]hydroquinone-protein adducts were produced in M1 cells, while the N-acetylcysteinyl-benzoquinone-like molecule was undetectable. Thus, hydroquinone resistance in M1HQ cells appeared to result from a glutathione-dependent detoxification and export mechanism.
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PMID:Hydroquinone resistance in a murine myeloblastic leukemia cell line. Involvement of quinone reductase and glutathione-dependent detoxification in nonclassical multidrug resistance. 878 15

The multixenobiotic resistance phenotype is characterized by the reduced accumulation of xenobiotics by cells or organisms due to increased efflux of the compounds by P-glycoprotein (P-gp) or related transporters. An extensive xenobiotic database, consisting primarily of pesticides, was utilized in this study to identify molecular characteristics that render a xenobiotic susceptible to transport by or inhibition of P-gp. Transport substrates were differentiated by several molecular size/shape parameters, lipophilicity, and hydrogen bonding potential. Electrostatic features differentiated inhibitory ligands from compounds not catagorized as transport substrates and that did no interact with P-gp. A two-tiered system was developed using the derived structure-activity relationships to identify P-gp transport substrates and inhibitory ligands. Prediction accuracy of the approach was 82%. We then validated the system using six additional pesticides of which tow were predicted to be P-gp inhibitors and four were predicted to be noninteractors, based upon the structure-activity analyses. Experimental determinations using cells transfected with the human MDR1 gene demonstrated that five of the six pesticides were properly catagorized by the structure-activity analyses (83% accuracy). Finally, structure-activity analyses revealed that among P-gp inhibitors, relative inhibitory potency can be predicted based upon the surface area or volume of the compound. These results demonstrate that P-gp transport substrates and inhibitory ligands can be distinguished using molecular characteristics. Molecular characteristics of transport substrates suggest that P-gp may function in the elimination of hydroxylated metabolites of xenobiotics.
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PMID:Structure-activity relationships for xenobiotic transport substrates and inhibitory ligands of P-glycoprotein. 934 96

P-glycoprotein actively transports a wide variety of chemically diverse compounds out of the cell. Based on a comparison of 100 compounds previously tested as P-glycoprotein substrates we suggest that a set of well-defined structural elements is required for an interaction with P-glycoprotein. The recognition elements are formed by 2 (type I unit) or 3 electron donor groups (type II unit) with a fixed spatial separation. Type I units consist of 2 electron donor groups with a spatial separation of 2.5 +/- 0.3 A. Type II units contain either 2 electron donor groups with a spatial separation of 4.6 +/- 0.6 A or 3 electron donor groups with a spatial separation of the outer 2 groups of 4.6 +/- 0.6 A. All molecules which contain at least 1 type I or 1 type II unit are predicted to be P-glycoprotein substrates. The binding to P-glycoprotein increases with the strength and the number of electron donor or hydrogen-bonding acceptor groups forming the type I and type II units. Correspondingly a high percentage of amino acids with hydrogen bonding donor side chains is found in the transmembrane sequences of P-glycoprotein relevant for substrate interaction. Molecules which minimally contain 1 type II unit are predicted to be inducers of P-glycoprotein overexpression.
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PMID:How does P-glycoprotein recognize its substrates? 947 49

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