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)

The present study demonstrated that poly(oxypropylene) and poly(oxyethylene) block copolymer pluronic L61 (L61)-hypersensitized multidrug-resistant CHRC5 Chinese hamster ovary cells and MCF-7/ADR human breast carcinoma cells to the cytotoxic action of doxorubicin (Dox). CHRC5 and MCF-7/ADR cells manifested 290- and 700-fold increases, respectively, in their sensitivity to Dox/L61 formulation compared with free Dox. Their sensitive counterparts Aux-B1 and MCF-7 displayed only marginal or no increase at all in their response to Dox/L61. The study of the drug transport performed by flow cytometry showed that L61 enhanced the drug uptake and reduced the P-glycoprotein-mediated drug efflux. Visualization of Dox subcellular distribution in CHRC5 cells by fluorescent microscopy revealed that Dox was sequestered in cytoplasmic vesicles, whereas incubation of the cells with Dox/L61 altered the drug compartmentalization by releasing the drug from these vesicles and shifting it to the nucleus. These findings suggested that the hypersensitive response of multidrug-resistant cells to the action of Dox/L61 was caused by an increase in the drug accumulation and changes in its subcellular distribution.
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PMID:Hypersensitizing effect of pluronic L61 on cytotoxic activity, transport, and subcellular distribution of doxorubicin in multiple drug-resistant cells. 870 95

Indirect evidence has suggested that P-glycoprotein (P-gp), the multidrug transporter, is phosphorylated by protein kinase C (PKC) and that phosphorylation modulates its transport function. To address the first premise more directly, ie., that P-gp is phosphorylated by PKC, we investigated the interaction between P-gp and PKC in sensitive and multidrug resistant MCF-7 and KB human carcinoma cell lines. We found that P-gp and PKC were coimmunoprecipitated from the multidrug-resistant cell lines MCF-7/AdrR and KB-V-1, using antibodies to either protein. The association between the two proteins was enhanced by phorbol 12-myristate 13-acetate, an analogue of diacylglycerol that induces translocation of PKC to the plasma membrane. The anti-P-gp immunoprecipitates contained PKC activity as measured by direct phosphorylation reactions. The interaction of PKC with P-gp displayed isozyme specificity: PKC-alpha, -beta, gamma, -epsilon, and -phi, but not -delta, -mu, -zeta, -lambda, were found to coimmunoprecipitate with P-gp. These studies indicate that P-gp closely interacts with PKC and serves as a substrate, and that specific isozymes of this kinase may be involved in the phosphorylation of the multidrug transporter.
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PMID:Interaction of P-glycoprotein with protein kinase C in human multidrug resistant carcinoma cells. 875 35

To investigate the role of protein kinase C (PKC) in the regulation of multidrug resistance and P-glycoprotein (P-gp) phosphorylation, the natural isomer of sphingosine (SPH), D-erythro sphingosine (De SPH), and its three unnatural stereoisomers were synthesized. The SPH isomers showed similar potencies as inhibitors of in vitro PKC activity and phorbol binding, with IC50 values of approximately 50 microM in both assays. Treatment of multidrug-resistant MCF-7ADR cells with SPH stereoisomers increased vinblastine (VLB) accumulation up to 6-fold at 50 microM but did not alter VLB accumulation in drug-sensitive MCF-7 wild-type (WT) cells or accumulation of 5-fluorouracil in either cell line. Phorbol dibutyrate treatment of MCF-7ADR cells increased phosphorylation of P-gp, and this increase was inhibited by prior treatment with SPH stereoisomers. Treatment of MCF-7ADR cells with SPH stereoisomers decreased basal phosphorylation of the P-gp, suggesting inhibition of PKC-mediated phosphorylation of P-gp. Most drugs that are known to reverse multidrug resistance, including several PKC inhibitors, have been shown to directly interact with P-gp and inhibit drug binding. SPH stereoisomers did not inhibit specific binding of [3H] VLB to MCF-7ADR cell membranes or [3H]azidopine photoaffinity labeling of P-gp or alter P-gp ATPase activity. These results suggest that SPH isomers are not substrates of P-gp and suggest that modulation of VLB accumulation by SPH stereoisomers is associated with inhibition of PKC-mediated phosphorylation of P-gp.
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PMID:Effects of sphingosine stereoisomers on P-glycoprotein phosphorylation and vinblastine accumulation in multidrug-resistant MCF-7 cells. 875 33

Multidrug resistance (MDR) is a phenomenon by which tumor cells exposed to a single anti-proliferative agent acquire resistance to other structurally and functionally unrelated drugs. The classical form of MDR is caused by a plasma-membrane protein currently named P-glycoprotein or P-170 encoded by the human mdr-1 gene in its functional isoform. In vitro cell lines expressing P-170 usually also present phenotypic and functional alterations. In the present study we report that the cytotoxicity mediated by tumor necrosis factor alpha (TNF alpha) in MDR variants of the human T-lymphoblastoid CEM cell line is associated with apoptosis (programmed cell death). Susceptibility of MDR cells to apoptosis was increased upon cycloheximide + TNF alpha sequential treatment, whereby the impairment of protein synthesis due to the former agent was followed by the effect of cytokine exposure. Massive apoptosis of P-170-positive cells, but not of controls, was also obtained by depletion of nutrients (i.e., serum starvation). In contrast, TNF-alpha exerted a similar apoptotic effect in epithelial (MCF-7) or myeloma (S8226) drug-sensitive/ -resistant cell pairs. However, the MDR variant of myeloma S8226 was more sensitive to the cytostatic effect of TNF alpha than the parental drug-sensitive cell line. These results suggest that the presence of the MDR phenotype may be associated with increased histotype-dependent cell susceptibility to specific, protein-synthesis-independent, apoptotic pathways.
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PMID:Tumor necrosis factor alpha is a powerful apoptotic inducer in lymphoid leukemic cells expressing the P-170 glycoprotein. 876 May 94

Recent studies have shown that high levels of the apoptosis-related proteins bcl-2 and bcl-xL increase, while over-expression of bcl-xs or bax decreases, resistance to drugs that induce apoptosis in some human cancer cells. In the present report, we investigated whether expression of these apoptosis-related proteins correlates with changes in the degree of resistance to apoptosis induced by doxorubucin, taxol, vincristine and VP-16 and contributes to the development of acquired resistance in multidrug-resistant MCF-7/Adr breast cancer cells. In this study, high levels of bcl-xL and bax proteins are detected in both MCF-7 and MCF-7/Adr cells. In contrast, bcl-2 protein is down-regulated about 10-fold in MCF-7/Adr cells compared with MCF-7 cells. RT-PCR analysis showed that MCF-7/Adr cells express approximately 2-fold less bcl-2 mRNA than MCF-7 cells. Moreover, 4-24 hr cycloheximide treatment of MCF-7 and MCF-7/Adr cells did not affect the expression of bcl-2 protein, indicating that this protein is very stable in both cell lines. Our results suggest that bcl-2 expression is modulated partly by transcriptional, but mainly by post-transcriptional, mechanisms. Despite the down-regulation of bcl-2 in MCF-7/Adr cells and equal levels of bcl-x, and bax proteins in both cell lines, cytoplasmic DNA-histone complexes induced by doxorubucin, taxol, vincristine and VP-16 indicate that MCF-7/Adr cells are highly resistant to apoptosis. Moreover, treatments of MCF-7/Adr cells with P-glycoprotein (P-gp) modulators, cyclosporin A and verapamil increased doxorubicin and vincristine-induced DNA fragmentation about 1.4- and 2.5-fold, indicating that P-gp is involved in the development of resistance to chemotherapy-induced apoptosis in this cell line.
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PMID:Down-regulation of apoptosis-related bcl-2 but not bcl-xL or bax proteins in multidrug-resistant MCF-7/Adr human breast cancer cells. 878 46

We assessed the effect of the protein kinase C inhibitor 2,6-diamino-N-([1-(1-oxotridecyl)-2-piperidinyl]methyl)hexanami de (NPC 15437) on the action of anthracyclines, epipodophyllotoxins and vinca alkaloids in P-glycoprotein (Pgp)-expressing CH(R)C5 hamster ovary and MCF-7/Adria(R) human breast cancer cells. Flow microfluorimetry revealed that treatment of CH(R)C5 cells with 75 microM NPC 15437 for 1 h resulted in a 6- to 10-fold increase in the nuclear accumulation of daunorubicin. Colony forming assays revealed that treatment with 75 microM NPC 15437 was associated with a 4-fold decrease in the LD90 for etoposide and a 2.5-fold decrease in the LD50 for vincristine. At higher concentrations of NPC 15437, greater modulation of anthracycline accumulation was observed; but NPC 15437 itself inhibited subsequent colony formation. Similar effects on drug accumulation and cytotoxicity were observed in MCF-7/Adria(R) cells. Experiments designed to investigate the mechanism by which NPC 15437 exerts these effects revealed that treatment with the protein kinase C activator phorbol-12-myristate 12-acetate partially reversed the effect of NPC 15437, suggesting that NPC 15437 was exerting an effect through protein kinase C. Photoaffinity labeling experiments revealed that NPC 15437 also inhibited the binding of [3H]-azidopine to Pgp in isolated membrane vesicles. These results identify NPC 15437 [correction of NPC15437] as the prototype of a new class of potential Pgp modulators but indicate that the effects of this agent as a modulator are potentially limited by its cytotoxicity.
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PMID:Evaluation of 2,6-diamino-N-([1-(1-oxotridecyl)-2-piperidinyl]methyl)- hexanamide (NPC 15437), a protein kinase C inhibitor, as a modulator of P-glycoprotein-mediated resistance in vitro. 882 46

The analogs of tiapamil are highly active modifiers of P-glycoprotein-mediated multidrug resistance (MDR) in vitro. The activity of three analogs of tiapamil, Ro 11-2933, Ro 44-5911 and Ro 44-5912, was compared in K562/DXR and MCF-7/DXR cell lines, using flow cytometry for the determination of intracellular daunorubicin accumulation and MTT assays for the cytotoxic evaluation of the modulators combined or not with daunorubicin. Ro 44-5911 and Ro 44-5912 were not intrinsically more toxic than DL-verapamil and exhibited a significantly higher reversing effect. Ro 44-5912 was shown slightly more efficient than Ro 44-5911 for reversing daunorubicin cytotoxicity. Ro 11-2933 was found to be the most potent in modulating MDR but was not significantly more active than Ro 44-5912. These two compounds were able to achieve a near complete reversion (above 80%) at 5 mumol/I. However, the cytotoxicity of Ro 11-2933 was higher with an IC50 near 20 mumol/I in both K562 and MCF7 cell lines. Our results indicate that tiapamil derivatives are promising compounds for MDR modulation. Among them Ro 11-2933 and Ro 44-5912 seem to be particularly interesting for in vivo evaluations.
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PMID:Comparative in vitro evaluation of dithiane analogs of tiapamil, Ro 11-2933, Ro 44-5911 and Ro 44-5912 as multidrug resistance modulators. 882 12

Acquired drug resistance is a major factor in the failure of doxorubicin-based chemotherapy in breast cancer. We determined the ability of megestrol acetate and/or tamoxifen to reverse doxorubicin drug resistance in a doxorubicin-resistant breast cancer line (the human MCF-7/ADR). The cytotoxicity of doxorubicin, megestrol acetate, and/or tamoxifen was determined in the sensitive and resistant cell lines utilizing the sulphorhodamine B assay. Tamoxifen alone produced an IC50 (concentration resulting in 50% inhibition of control growth) of 10.6 microM, whereas megestrol acetate alone resulted in an IC50 of 48.7 microM in the MCF-7/ADR cell line. The IC50 of doxorubicin in MCF-7/ADR was 1.9 microM. Neither megestrol acetate alone nor tamoxifen alone at 1 or 5 microM altered the IC50 of doxorubicin. However, the combination of tamoxifen (1 or 5 microM) and megestrol acetate (1 or 5 microM) synergistically sensitized MCF-7/ADR cells. Additionally, megestrol acetate and tamoxifen inhibited iodoarylazidoprazosin binding to P-glycoprotein, and, in their presence, there was an increased doxorubicin accumulation in the MCF-7/ADR cells. Furthermore, the combination of tamoxifen and megestrol acetate had much less effect on the cytotoxicity of doxorubicin in MCF-7 wild-type cells. Clinically achievable concentrations of tamoxifen and megestrol acetate can largely sensitize MCF-7/ADR to doxorubicin. The combination of these three drugs in a clinical trial may be informative.
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PMID:Sensitization to doxorubicin resistance in breast cancer cell lines by tamoxifen and megestrol acetate. 883 29

A series of new 3'-(2-methyl-1-propenyl) and 3'-(2-methylpropyl) taxoids with modifications at C-10 was synthesized by means of the beta-lactam synthon method using 10-modified 7-(triethylsilyl)-10-deacetylbaccatin III derivatives. The new taxoids thus synthesized show excellent cytotoxicity against human ovarian (A121), non-small-cell lung (A549), colon (HT-29), and breast (MCF-7) cancer cell lines. All but one of these new taxoids possess better activity than paclitaxel and docetaxel in the same assay, i.e., the IC50 values of almost all the taxoids are in the subnanomolar level. It is found that a variety of modifications at C-10 is tolerated for the activity against normal cancer cell lines, but the activity against a drug-resistant human breast cancer cell line expressing MDR phenotype (MCF7-R) is highly dependent on the structure of the C-10 modifier. A number of the new taxoids exhibit remarkable activity (IC50 = 2.1-9.1 nM) against MCF7-R. Among these, three new taxoids, SB-T-1213 (4a), SB-T-1214 (4b), and SB-T-1102 (5a), are found to be exceptionally potent, possessing 2 orders of magnitude better activity than paclitaxel and docetaxel. The observed exceptional activity of these taxoids may well be ascribed to an effective inhibition of P-glycoprotein binding by the modified C-10 moieties. The new taxoid SB-T-1213 (4a) shows an excellent activity (T/C = 0% at 12.4 and 7.7 mg/kg/dose, log10 cell kill = 2.3 and 2.0, respectively) against B16 melanoma in B6D2F1 mice via intravenous administration.
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PMID:Syntheses and structure-activity relationships of the second-generation antitumor taxoids: exceptional activity against drug-resistant cancer cells. 883 55

Cytochalasins are a family of structurally related natural product cytotoxins that selectively depolymerize microfilaments. In this study, the interaction between several cytochalasins and the drug transporter P-glycoprotein was investigated. Dihydrocytochalasin B and cytochalasin E consistently sensitized P-glycoprotein-overexpressing human breast carcinoma cells (MCF-7/ADR) to daunomycin, vinblastine, and actinomycin D without affecting the cytotoxicity of cisplatin. These compounds did not affect the sensitivities of the parental MCF-7 cells to anticancer drugs, indicating that their effects are due to P-glycoprotein inhibition. Effects of dihydrocytochalasin B and cytochalasin E were observed at concentrations as low as 2.5 and 5 microM, respectively. In contrast, cytochalasins A, B, C, D, H, and J did not sensitize MCF-7/ADR cells to any of the drugs. The accumulation of [3H]-vinblastine by MCF-7/ADR cells and by drug-resistant human ovarian carcinoma cells (SKVLB1) was increased to the greatest extent by verapamil, followed by dihydrocytochalasin B > cytochalasin E > cytochalasin B, whereas cytochalasins A, C, D, H, and J did not alter intracellular accumulation of the drug. Similarly to verapamil, dihydrocytochalasin B significantly stimulated the ATPase activity of P-glycoprotein, while other cytochalasins were ineffective. These results demonstrate that very closely related compounds can differentially interact with P-glycoprotein. For example, the only difference between cytochalasin B and dihydrocytochalasin B is the saturation of a carbon-carbon double bond in dihydrocytochalasin B. These structural differences may provide important insight into chemical determinants for drug interaction with P-glycoprotein.
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PMID:Differential interactions of cytochalasins with P-glycoprotein. 883 87


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