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)

To determine the number of drug binding sites that exist on the multidrug transporter, P-glycoprotein, we used azidopine, a dihydropyridine photoaffinity compound that reverses multidrug resistance and labels P-glycoprotein. Azidopine labels P-glycoprotein in two distinct locations: one labeled site is within the amino half of P-glycoprotein between amino acid residues 198 and 440, and the other site is within the carboxy half of the protein. Vinblastine is a cytotoxic drug that is used in cancer chemotherapy and is a substrate for transport by P-glycoprotein. We found that vinblastine inhibits azidopine labeling to approximately the same extent at each labeled site on P-glycoprotein. Because several studies have shown that amino acid residue 185 of P-glycoprotein plays a critical role in some aspects of drug binding and transport, we also studied the effect that amino acid residue 185 has on azidopine labeling. These studies show that azidopine labels both sites equivalently in both wild-type (G185) and mutant (V185) P-glycoproteins. We conclude from our results that the two halves of P-glycoprotein approach each other to form a single binding site for these drugs.
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PMID:Characterization of the azidopine and vinblastine binding site of P-glycoprotein. 135 86

Multidrug resistance (MDR) is one of the major obstacles to successful cancer chemotherapy. MDR is a complex and multifactorial phenomenon. One important and common mechanism used by cancer cells as a defense against cytotoxic drugs is a 170-kD plasma membrane glycoprotein, P-glycoprotein (P-gp). P-gp confers resistance by actively pumping cytotoxic drugs out of cancer cells. Paradoxically, P-gp overexpression on tumor cells is frequently associated with enhanced susceptibility to lymphokine-activated killer cell activity. This enhanced susceptibility is not observed with P-gp- MDR cells, nor is susceptibility to natural killer cells increased. The physiologic, evolutionary and immunologic concepts with regard to the P-gp and the possible intervention of the function of the P-gp in cancer therapy are reviewed.
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PMID:P-glycoprotein-mediated multidrug resistance and cytotoxic effector cells. 135 93

Mechanisms responsible for drug resistance in human esophageal cancer cell lines were investigated. Three cell lines established from human esophageal carcinoma (TE-1, SH-1, and TH) showed different sensitivities to vindesine, vincristine, cisplatin (CDDP), etoposide (VP-16), and pepleomycin. Both SH-1 and TH cell lines were twofold to sevenfold more resistant to pepleomycin, vindesine, and vincristine than TE-1 was. SH-1 showed twofold more resistance to CDDP than either TE-1 or TH did, and TH and TE-1 showed a 3-fold or 1.5-fold more resistance, respectively, to VP-16 than SH-1 did. The accumulation of tritiated vincristine in SH-1 and TH was approximately 50% that in TE-1. Two multidrug resistance reversal agents, cepharanthine and a synthetic dihydropyridine analogue (NK-252; Nikken Chemicals, Saitama, Japan), potentiated the cytocidal actions of vindesine against SH-1, TH, and TE-1 cells, with no apparent expression of P-glycoprotein in the three cell lines. The glutathione S-transferase pi gene was expressed in all three cell lines. DNA topoisomerase II levels were lowest in TE-1, followed by SH-1 and TH, although the accumulation of tritiated VP-16 was less in both TH and SH-1 than in TE-1. Differential sensitivities to anti-cancer drugs appear to be mediated through pleiotropic mechanisms.
Cancer 1992 Nov 15
PMID:Different sensitivities of human esophageal cancer cells to multiple anti-cancer agents and related mechanisms. 135 26

A mitoxantrone-resistant human MCF-7 breast cancer subline (MCF/MX) which is approximately 4000-fold resistant to mitoxantrone was isolated by serial passage of the parental wild-type MCF-7 cells (MCF/WT) in stepwise increasing concentrations of drug. MCF/MX cells were also approximately 10-fold cross-resistant to doxorubicin and etoposide but were not cross-resistant to vinblastine. Intracellular accumulation of radiolabeled mitoxantrone was markedly reduced in MCF/MX cells relative to that in the drug-sensitive MCF/WT cells. This decrease in intracellular drug accumulation into MCF/MX cells was associated with enhanced drug efflux, which was reversed when cells were incubated in the presence of sodium azide and 2, 4-dinitrophenol, suggesting an energy-dependent process. Incubation of MCF/MX cells with verapamil did not affect either the accumulation of mitoxantrone or the level of resistance in these cells. Furthermore, RNase protection and Western blot analyses failed to detect the expression of the mdr1 RNA or P-glycoprotein, a drug efflux pump known to be associated with the development of multidrug resistance in vitro. However, a polyclonal antibody directed against a synthetic peptide corresponding to the putative ATP binding domain of P-glycoprotein reacted with two (M(r) 42,000 and 85,000) membrane proteins from MCF/MX cells which were not found in MCF/WT. Functional assays and Western blot analysis for topoisomerase II revealed no differences in topoisomerase II activity or protein levels in MCF/MX cells. Thus, resistance in this cell line is apparently associated with enhanced drug efflux involving a pathway distinct from the mdr1-encoded multidrug transporter P-glycoprotein.
Cancer Res 1992 Nov 15
PMID:Reduced intracellular drug accumulation in the absence of P-glycoprotein (mdr1) overexpression in mitoxantrone-resistant human MCF-7 breast cancer cells. 135 31

We previously noted that a wide variety of drugs which are recognized by multidrug-resistant cells (MDR+) are positively charged. However, it remains unclear why and how such a large number of structurally different compounds can be distinguished by MDR+ cells. The majority of the diverse compounds subject to MDR are complex and thereby complicate definitive structure/function characterization of the P-glycoprotein-mediated MDR mechanism. Using a series of simple aromatic (alkypyridiniums) and nonaromatic (alkylguanidiniums) organic cations differing in their lipophilicity by stepwise additions of single alkyl carbons, we demonstrate by growth inhibition studies that a single aromatic moiety and a critical degree of lipophilicity (log P > -1) are required for recognition of these simple organic cations by MDR+ cells. Thus, MDR+ cells are not cross-resistant to the nonaromatic guanidiniums but do show cross-resistance to those aromatic pyridiniums with chain lengths > four. Resistance ratios, as determined by comparison of 50% inhibitory doses in MDR- versus MDR+ cells, increase as a function of increasing chain lengths of these latter simple aromatic compounds. Resistance to pyridinium analogues in MDR+ cells is reversible by co-treatment with nontoxic doses of verapamil. Preliminary uptake data with radioactive analogues further implicate the MDR mechanism of lowered drug accumulation in accounting for resistance to the pyridinium homologues. Utilization of these simple organic cations provides a rational basis for better defining the physical chemical properties of more complex compounds processed by the MDR mechanism and suggests a strategy for designing chemotherapeutic agents with reduced susceptibility to MDR.
Cancer Res 1992 Nov 15
PMID:Structural requirements of simple organic cations for recognition by multidrug-resistant cells. 135 33

We propose that the cellular burden of certain carcinogens may be mitigated by P-glycoprotein (P-gp), the putative drug efflux pump. In a series of multidrug resistant human breast cancer MCF-7 cells with increasing P-gp expression we examined this hypothesis using benzo(alpha)pyrene, a widely distributed environmental and dietary carcinogen. We found that multidrug resistant cells were cross-resistant to benzo(alpha)pyrene and the rates of efflux for benzo(alpha)pyrene were higher in multidrug resistant cells than in wild type cells. Evidence supporting the involvement of P-gp included the inhibition of azidopine binding to P-gp benzo(alpha)pyrene and the inhibition of benzo(alpha)pyrene efflux by Adriamycin and verapamil. Our findings suggest that P-gp may play a role in the cellular defense to carcinogens. The expression of P-gp and the modulation of its function may affect the susceptibility of normal tissues to transformation by carcinogens.
Cancer Res 1992 Dec 01
PMID:A new functional role for P-glycoprotein: efflux pump for benzo(alpha)pyrene in human breast cancer MCF-7 cells. 135 37

The reliability of a simple method evaluating the pattern of subcellular binding of Adriamycin (Adriamycin binding assay, ABA) as an index of sensitivity was demonstrated in different primary cultures and in sensitive and resistant cell lines of human osteosarcoma. After exposure to Adriamycin (10 micrograms/ml for 30 min at 37 degrees C), living sensitive cells showed selective intranuclear uptake of the drug, whereas in resistant cells no distinct subcellular distribution was observed. The binding pattern of Adriamycin in sensitive and in highly resistant cells was inversely related to the expression of P-glycoprotein. However, low levels of resistance in vitro, not detectable by increased levels of expression of P-glycoprotein, were revealed by ABA. The use of ABA in combination with the estimate of P-glycoprotein expression is recommended in clinical practice as an accurate means for predicting the sensitivity of osteosarcoma to Adriamycin.
J Cancer Res Clin Oncol 1992
PMID:Adriamycin binding assay: a valuable chemosensitivity test in human osteosarcoma. 135 94

P-glycoprotein, a transmembrane protein associated with multidrug resistance in cancer cells, is also expressed in normal tissues. To get more insight into the physiologic role of mdr1/P-glycoprotein, we investigated its expression in human fetal tissues after 7 to 38 weeks of gestation by an immunohistochemical technique, using three different monoclonal antibodies, and by a sensitive RNAse protection assay. Expression of mdr1-mRNA could already be demonstrated in the embryonal phase of human development, after 7 weeks of gestation. Comparing the adult with the fetal tissue distribution, differences were found in specific organs, such as adrenal, intestine, respiratory epithelium, and brain capillaries. In the fetal zone cells of the fetal adrenal cortex no staining was observed by immunohistochemistry, whereas the definitive zone showed increasing expression throughout gestation. Prenatal intestine did not show staining of the epithelium, although definite mdr1-mRNA expression was observed in late specimens. Interestingly, respiratory epithelium of main bronchi and pharynx, not expressing P-gp in adults, did stain positive. Expression of P-gp in brain capillaries was not observed before the third trimester of pregnancy, whereas in kidney and liver, mdr1-mRNA expression and staining for P-glycoprotein were detected in early fetal life (11 to 14 weeks). These findings suggest a pivotal role of P-glycoprotein in physiology of various organs already in early phases of human development and may help to identify its physiologic substrates.
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PMID:Multidrug resistance gene (P-glycoprotein) expression in the human fetus. 135 89

P-glycoprotein (P-gp), the product of the MDR1 (multidrug resistance) gene, is a transmembrane efflux pump for different lipophilic compounds, including many anticancer drugs and fluorescent dyes. We have previously reported that the efflux of fluorescent dyes from lymphoid cells of human bone marrow was directly correlated with the cellular P-gp content. In the present study, we show that human peripheral blood lymphocytes (PBL) also express P-gp, and that P-gp expression correlates with the efflux of fluorescent dyes from PBL. This efflux was suppressed not only by chemical inhibitors of P-gp but also by a P-gp-specific monoclonal antibody UIC2, thus providing direct evidence that it was mediated by P-gp. We have also characterized dye efflux and UIC2 reactivity in specific PBL subsets. P-gp was expressed in the majority of CD56+, CD8+, and CD20+ lymphocytes, but in less than one half of CD4+ cells. P-gp-mediated dye efflux was highly heterogeneous relative to the expression of CD56RA, CD56RO, Leu-8, and HLA-DR antigens. No significant P-gp activity was detectable in CD14+ monocytes. MDR1 expression in normal lymphocytes may be a determinant of multidrug resistance in the corresponding malignancies.
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PMID:Expression and activity of the multidrug resistance P-glycoprotein in human peripheral blood lymphocytes. 850 83

Analysis of a panel of endothelial cells passaged between 5 and 25 times and derived from various organs and species demonstrated that murine and porcine cerebral capillary endothelial cells actively excluded the fluorescent dye rhodamine 123, a substrate of P-glycoprotein. In addition, rhodamine 123 accumulation could be enhanced by the multidrug resistance chemosensitizer verapamil, known to reduce P-glycoprotein-mediated drug efflux. Cloned murine and porcine cerebral capillary endothelial cells were immunoreactive with the C219 monoclonal antibody to P-glycoprotein, and a C219 epitope-specific blocking peptide could abolish staining. The antiproliferative and cytotoxic effects of vincristine, but not cis-platinum(II) diamminedichloride, were increased by the addition of either verapamil or cyclosporin A to brain endothelial cell cultures in a 72-h assay, as determined by [3H]thymidine incorporation and total protein measurement. Cyclosporin A was a more effective reversal agent than verapamil. Thus, a P-glycoprotein isoform may be constitutively expressed in brain endothelial cells in vitro and supports the available data on in situ immunohistochemical staining of P-glycoprotein at the blood-brain barrier. In addition, these findings may indicate that one function of P-glycoprotein in vivo at the blood-brain barrier is the exclusion of xenobiotics from central nervous system tissues.
Cancer Res 1992 Dec 15
PMID:Expression and functional activity of P-glycoprotein in cultured cerebral capillary endothelial cells. 136 Aug 73


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