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

The multidrug transporter, initially identified as a multidrug efflux pump responsible for resistance of cultured cells to natural product cytotoxic drugs, is normally expressed on the apical membranes of excretory epithelial cells in the liver, kidney, and intestine. This localization suggests that the multidrug transporter may have a normal physiological role in transporting cytotoxic compounds or metabolites. In the liver, hepatectomy or treatment with chemical carcinogens increases expression of the MDR1 gene which encodes the multidrug transporter. To evaluate conditions which increase MDR1 gene expression, we have investigated the induction of the MDR1 gene by physical and chemical environmental insults in the renal adenocarcinoma cell line HTB-46. There are two strong heat shock consensus elements in the major MDR1 gene promoter. Exposure of HTB-46 cells to heat shock, sodium arsenite, or cadmium chloride led to a 7- to 8-fold increase in MDR1 mRNA levels. MDR1 RNA levels did not change following glucose starvation or treatment with 2-deoxyglucose and the calcium ionophore A23187, conditions which are known to activate the expression of another family of stress proteins, the glucose-regulated proteins. The levels of the multidrug transporter, P-glycoprotein, as measured by immunoprecipitation, were also increased after heat shock and sodium arsenite treatment. This increase in the level of the multidrug transporter in HTB-46 cells correlated with a transient increase in resistance to vinblastine following heat shock and arsenite treatment. These results suggest that the MDR1 gene is regulatable by environmental stress.
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PMID:Heat shock and arsenite increase expression of the multidrug resistance (MDR1) gene in human renal carcinoma cells. 196 74

Studies were undertaken to identify the protein kinase(s) responsible for P-glycoprotein phosphorylation in multidrug-resistant (KB-V1) human carcinoma cells and to elucidate the functional role of phosphorylation. P-glycoprotein migrated on sodium dodecyl sulfate gels with apparent Mr 150,000 and is termed P150. When KB-V1 membrane vesicles were incubated with [gamma-32P] ATP, P150 was phosphorylated by an endogenous kinase that exhibited properties of membrane-inserted protein kinase C (PKC). Both membrane-bound P150 and purified P150 served as effective substrates for highly purified rat brain PKC which incorporated approximately 0.6 mol of phosphate/mol of P150. Enzyme assays showed that KB-V1 cells exhibit 4-fold higher PKC activity compared with the drug-sensitive KB-3 cell line. The basal phosphorylation of P150 observed in 32P-labeled cells was increased 2-fold by phorbol ester (PMA) treatment and reduced 30% by treatment with the isoquinolinsulfonamide H-7. Phosphopeptide maps of partially digested P150, phosphorylated either in vitro with PKC or in intact 32P-labeled control or PMA-stimulated cells, were indistinguishable from one another. Drug accumulation assays revealed that PMA treatment of KB-V1 cells significantly reduced [3H]vinblastine accumulation induced by verapamil or by tetrandrine. The results suggest that PKC is primarily responsible for P150 phosphorylation in KB-V1 cells and that phosphorylation may play a modulatory role in the drug transport process.
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PMID:Protein kinase C phosphorylates P-glycoprotein in multidrug resistant human KB carcinoma cells. 197 May 71

Development of multidrug resistance due to overexpression of P-glycoprotein (Pgp), a cell membrane drug efflux pump, occurs commonly during in vitro selections with adriamycin (Adr). Pgp-mediated drug resistance can be overcome by the calcium channel blocker verapamil (Vp), which acts as a competitive inhibitor of drug binding and efflux. In order to identify other mechanisms of Adr resistance, we isolated an Adr-resistant subline by selecting the human breast cancer cell line MCF-7 with incremental increases of Adr in the presence of 10 microgram/ml verapamil. The resultant MCF-7/AdrVp subline is 900-fold resistant to Adr, does not overexpress Pgp, and does not exhibit a decrease in Adr accumulation. It exhibits a unique cross-resistance pattern: high cross-resistance to the potent Adr analogue 3'-deamino-3'-(3-cyano-4-morpholinyl)doxorubicin, lower cross-resistance to the alkylating agent melphalan, and a sensitivity similar to the parental cell line to vinblastine. The levels of glutathione and glutathione S-transferase are similar in the parental line and the Adr-resistant subline. Topoisomerase II-DNA complexes measured by the potassium-sodium dodecyl sulfate precipitation method shows a 2-3 fold decrease in the resistant subline. The MCF-7/AdrVp cells overexpress a novel membrane protein with an apparent molecular mass of 95 kDa. Polyclonal antibodies raised against the P-95 protein demonstrate a correaltion between the level of expression and Adr resistance. Removal of Adr but not verapamil from the selection media results in a decline in P-95 protein levels that parallels a restoration of sensitivity to Adr. Immunohistochemistry demonstrates localization of the P-95 protein on the cell surface. The demonstration of high levels of the protein in clinical samples obtained from patients refractory to Adr suggests that this protein may play a role in clinical drug resistance.
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PMID:Characterization of adriamycin-resistant human breast cancer cells which display overexpression of a novel resistance-related membrane protein. 197 54

We examined the effect of hemin, sodium butyrate and mitomycin C on levels of P-glycoprotein mRNA in human myelogenous K562 cells by northern blot analysis. After treatment with sodium butyrate a dose-dependent increase of P-glycoprotein mRNA expression was observed in the adriamycin-resistant K562 and vincristine-resistant K562 lines. With 10 mM sodium butyrate, the level of P-glycoprotein mRNA reached 20 times that of control adriamycin-resistant K562 and with 30 mM sodium butyrate, it exceeded 5 times that of control vincristine-resistant K562. In contrast, hemin and mitomycin C had almost no effect on P-glycoprotein mRNA. In this experiment, since expression of P-glycoprotein mRNA was not necessarily accompanied with induction of erythroid differentiation, the increased amount of P-glycoprotein mRNA is unlikely to be a result of differentiation.
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PMID:Increase in the level of P-glycoprotein mRNA expression in multidrug-resistant K562 cell lines treated with sodium butyrate is not accompanied with erythroid differentiation. 198 Apr 93

Phenoxazine and seven other structurally related compounds were investigated to determine whether they would increase accumulation of Vinca alkaloids in multidrug-resistant (MDR) GC3/C1 (human colon adenocarcinoma) and KB-ChR-8-5 (HeLa variant) cell lines. Among eight compounds examined, phenoxazine caused greater accumulations of vincristine (VCR) and vinblastine (VLB) than the other chemosensitizers. The structure-activity relationship of these compounds for anti-MDR activity suggested an ideal tricyclic ring structure with a basic nitrogen atom at position 10 for modulating the accumulation of Vinca alkaloids. Addition of oxygen to position 5 of the tricyclic ring system further increased the activity, implying that a highly electronegative element with one, or more, lone pair of electrons in the nucleus opposite to heterocyclic nitrogen was a requirement for better anti-MDR activity. The relationship between the concentration of phenoxazine and the potentiation of Vinca alkaloid accumulation in comparison to verapamil was examined. For VCR in GC3/C1 cells, maximal modulation indices were: for verapamil, 1.8; phenoxazine, 8.6; and for VLB, 1.3 for verapamil compared to 3.3 for phenoxazine. In KB-ChR-8-5 cells, for VCR the maximal modulating index values were 9.0 and 4.3, respectively, and for phenoxazine and verapamil and for VLB were 5.0 and 3.7, respectively. Accumulations of VLB in GC3/C1 cells were similar in the presence of 1 microM phenoxazine or 10 mM sodium azide plus 10 mM 2-deoxyglucose. The effects of verapamil and phenoxazine on the accumulation of Vinca alkaloid were additive. Further, phenoxazine decreased the efflux of VLB by 30% in KB-ChR-8-5 cell line and 10% in GC3/C1 cells. In addition to enhancing the cytotoxicities of VCR and VLB, phenoxazine competed relatively weakly for binding to P-glycoprotein with [3H]azidopine and moderately with [3H]azidoverapamil, at equal concentrations, suggesting that the multidrug transporter may be the primary target for phenoxazine.
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PMID:Structural determinants of phenoxazine type compounds required to modulate the accumulation of vinblastine and vincristine in multidrug-resistant cell lines. 237 85

Anthracycline-sensitive (HL-60) and -resistant (HL-60/AR) cells, which do not overexpress the P-glycoprotein, each transport and distribute daunorubicin (DNR) into distinct intracellular locations, as visualized by digitized video fluorescence microscopy. At pH 7.4, the fluorescence of DNR in HL-60 cells appears distributed diffusely in both the nucleus and cytoplasm. In contrast, HL-60/AR cells show much less fluorescence in the nucleus and cytoplasm; most of the fluorescence localizes first to the Golgi apparatus and is then gradually shifted to the lysosomes and/or mitochondria. In pharmacokinetic studies, HL-60/AR cells exposed to different extracellular concentrations of [14C]DNR consistently accumulated less radioactive drug than the parent HL-60 cells. Incubation of HL-60/AR cells with sodium azide and deoxyglucose blocked the efflux of [14C]DNR and also prevented the shift of DNR fluorescence from the Golgi apparatus to the lysosomes/mitochondria. The efflux and the intracellular shift of DNR could also be inhibited by lowering the temperature to 18 degrees C, which stops endosomal membrane fusion. When DNR was allowed to accumulate in HL-60 or HL-60/AR cells at pH 5 there was an increase in the proportion of drug fluorescence in the membranes of both HL-60 and HL-60/AR cells; a decrease in the amount of drug retained by HL-60, but not by HL-60/AR cells; and a decrease in the cytostatic effects of DNR on both HL-60 and HL-60/AR cells. These data suggest that DNR resistance is associated with a failure of DNR to pass through membranes and to bind to cytoplasmic and nuclear structures. Instead, most of the drug is taken up by the Golgi apparatus from which it is then shifted to the lysosomes or to mitochondria, or out of the cell.
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PMID:Intracellular distribution and pharmacokinetics of daunorubicin in anthracycline-sensitive and -resistant HL-60 cells. 254 46

A monoclonal antibody (C219) that recognizes the P-glycoprotein (Mr = 170,000) in plasma membranes of multidrug-resistant Chinese hamster ovary (CHO) cell lines was used to assay renal brush border membrane (BBM) and basolateral membrane (BLM) fractions for the presence of a cross-reactive polypeptide. The C219 antibody bound to a 155,000 dalton protein in immunoblots of rat BBM but not BLM proteins resolved by sodium dodecyl sulfate gel electrophoresis. The corresponding human kidney BBM and dog kidney BBM proteins had molecular weights of 170,000 and 160,000 respectively. The glycoprotein nature of the renal protein was shown by its sensitivity to N-glycanase treatment which reduced the apparent molecular weight of the dog protein to 120,000. In addition, dog P-glycoprotein could be bound to and eluted from immobilized wheat germ agglutinin. The molecular weight, antibody crossreactivity, glycosidase sensitivity and lectin binding show that this protein is a normal kidney analogue of the P-glycoprotein induced in multidrug resistant cell lines.
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PMID:Identification of P-glycoprotein in renal brush border membranes. 256 33

Monoclonal antibody against the Mr 22,000 calcium-binding protein (sorcin) from an adriamycin-resistant myelogenous leukemia cell line K562 (K562/ADM) was prepared and used as a probe to study the localization of sorcin in K562/ADM cells and the parental cell line, K562. Analysis of extracts from K562/ADM cells by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fluorescence image analysis showed that K562/ADM cells possessed abundant sorcin in the cytoplasm which was almost entirely absent from the drug-sensitive parental cell line, K562. Furthermore, immuno-electron microscopic studies revealed that sorcin was closely associated with free ribosomes, rough endoplasmic reticulum, mitochondria, microfilament bundles and perinuclear membranes. These observations provide the first clue that the Ca-binding protein, sorcin, may play an important role in the development of the multidrug resistance phenomenon, although the relationship between sorcin and P-glycoprotein is still unknown.
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PMID:Immunocytochemical identification and localization of the Mr 22,000 calcium-binding protein (sorcin) in an adriamycin-resistant myelogenous leukemia cell line. 256 83

Tumor cell resistance to anthracyclines, epipodophyllotoxins and vinca alkaloids, called multi-drug resistance (MDR) is intimately linked to changes in the plasma membrane which facilitate an increased energy dependent drug extrusion in the resistant cell compared to the wild type cell. Isolated plasma membrane vesicles from wild type Ehrlich ascites tumor cells (EHR2) and the daunorubicin (DNR) resistant subline EHR2/DNR+ were utilised to study binding and possible transport of DNR and vincristine (VCR). A significant ATP enhanced increase in VCR binding to vesicles from EHR2/DNR+ compared to EHR2 was demonstrated. Furthermore, an increase in ATP enhanced VCR binding in proportion to content of the MDR associated P-glycoprotein was seen in plasma membrane vesicles prepared from various benign human endocrine tumors. VCR binding to EHR2/DNR+ vesicles was inhibited by other vinca alkaloids greater than actinomycin D greater than colchicine greater than anthracyclines, with 35-75 microM concentrations of anthracyclines needed for 50% inhibition. VCR binding to EHR2/DNR+ vesicles was pH and temperature dependent with an activation energy of -30 kJ/mol and was decreased by replacement of Na+ with K+ and by addition of Ca2+. Preincubation of vesicles with monoclonal antibody against the C terminal of P-glycoprotein had no effect on VCR binding and osmolality tests failed to show genuine transmembranal transport of VCR. DNR binding was similar in plasma membrane vesicles from both cell lines, and showed none of the characteristics mentioned for VCR. Furthermore, a radiolabeled N-hydroxysuccinimide ester derivative of doxorubicin, which inhibited VCR binding to EHR2/DNR+ membranes to an even greater extent than doxorubicin, labeled plasma membrane proteins from EHR2 and EHR2/DNR+ identically and did not demonstrate any binding to P-glycoprotein. Therefore, even though the study confirms the close link between vinca alkaloid binding and P-glycoprotein, it could not detect a similar association between anthracyclines and P-glycoprotein thus attesting to the complexity of the MDR phenotype.
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PMID:Daunorubicin and vincristine binding to plasma membrane vesicles from daunorubicin-resistant and wild type Ehrlich ascites tumor cells. 257 33


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