Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Enzyme
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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 few protein targets were found to display a specific high-affinity interaction with the immunosuppressant cyclosporin A (CsA): cytosolic cyclophilins (CyP)A, B, C, D, E containing from 122 to 174 amino acid residues in a polypeptide chain, and secreted forms of CyP; CyP-40, 40-kDa CsA-binding polypeptide complexed with steroid receptor (SR); CyP-related 150-kDa receptor of natural killer (NK) cells; interleukin 8 (IL-8); actin; a family of molecular chaperones hsp70 and
P-glycoprotein
(
P-GP
). All CyPs possess peptidyl-prolyl cis-trans isomerase activity (PPIase) and may serve as ATP-independent molecular chaperone proteins. The CsA-CyP complexes are specific inhibitors of Ca(2+)-and
calmodulin
-dependent protein phosphatase calcineurin (CaN). The inhibition of CaN blocks the activation of genes of IL-2, IL-2R, IL-4, etc. in T cells. In addition, immunosuppressive and/or antiinflammatory activity of CsA can be executed via CyP-40 and hsp 70 complexed with SR, and following the interaction with CyP-related receptor of NK and with IL-8. CsA binding to CyPC,
P-GP
and actin may throw light on the biochemical events leading to nephrotoxicity and graft vessel disease, two major side effects produced by CsA. The discovery of the interaction of human immunodeficiency virus type 1 (HIV-1) Gag protein with CyP and effective disruption of this interaction by CsA may be important for our understanding of the pathology caused by this immunosuppressive virus and will inspire therapeutic strategies to nip HIV in the bud. Bacterial immunophilins (ImPs) contribute to the virulence of pathogenic microorganisms. Elucidation of molecular mechanisms of microbial ImPs' action in the pathogenesis of bacterial infections may lead to new strategies for designing antibacterial drugs.
...
PMID:Some new aspects of molecular mechanisms of cyclosporin A effect on immune response. 754 42
P-glycoprotein
modulators are respected to be multidrug resistance reversing agents in cancer chemotherapy. Some calcium channel blockers,
calmodulin
inhibitors or immunosuppressive agents have been used in clinical studies, although the dose of these drugs required to test in vitro experimental data might cause potent pharmacological effects which are not desirable in patients. By using LLC-GA5-COL150 cells that express
P-glycoprotein
specifically on the apical membranes, we examined the transport of anticancer drugs mediated by
P-glycoprotein
. Cepharanthin, a biscoclaurine alkaloid, potently inhibits the transport of vinblastine and daunorubicin, both commonly used anticancer agents. The 50% inhibitory concentration of cepharanthin on daunorubicin transport was 2.06 microM. Combined inhibitory effects on daunorubicin transport were observed when cepharanthin was used together with cyclosporin A, a potent immunosuppressive agent and
P-glycoprotein
modulator. Cepharanthin itself was transported by
P-glycoprotein
. Transcellular transport of cepharanthin across LLC-GA5-COL150 cell monolayers was saturable when its concentration was under 5 microM, and the transport was inhibited by
P-glycoprotein
modulators. These results indicate that cepharanthin can reverse multidrug resistance, and proper combination with other
P-glycoprotein
modulators could potentiate its inhibitory effect on expelling the anticancer drugs out of the cell via
P-glycoprotein
.
...
PMID:Cepharanthin, a multidrug resistant modifier, is a substrate for P-glycoprotein. 756 98
Studies with inside-out plasma membrane vesicles from multidrug-resistant (MDR 3) murine erythroleukemia (MEL/VCR-6) cells have provided evidence for down-modulation of
P-glycoprotein
(
P-gp
) function by Ca(2+)-
calmodulin
(
CLM
). These studies showed that
CLM
in the presence or absence of Ca2+ had no effect on binding of [3H]vinblastine (VBL) by
P-gp
in inside-out plasma membrane vesicles. However, profound inhibition of ATP-dependent [3H]VBL efflux by these vesicles was demonstrated by the addition of subnanomolar concentrations of
CLM
(IC50 = 0.15 +/- 0.02 nM). The addition of 1 microM Ca2+ reduced the inhibition of [3H]VBL efflux by
CLM
, shifting the concentration required for inhibition to the nM range (IC50 = 2.55 +/- 0.35 nM). The inhibition of as 0.01 mM Ca2+, and no inhibition occurred with concentrations greater than 0.2 mM Ca2+. Binding of
CLM
, itself, to
P-gp
was demonstrated in two ways. The
P-gp
content of detergent-solubilized plasma membrane from MEL/VCR-6 cells could be appreciably depleted by treating this material with
CLM
-Sepharose beads as shown by SDS-polyacrylamide gel electrophoresis (PAGE) and Western blotting with anti-
P-gp
antibody (C219) before and after
CLM
-Sepharose treatment. Also, depletion of
P-gp
from solution by
CLM
was less in the presence of 1 mM Ca2+. Blotting of
P-gp
after SDS-PAGE of plasma membrane from MEL/VCR-6 cells was also obtained using 125I-
CLM
as a probe. These results strongly suggest that the MDR 3 homolog of
P-gp
is a
CLM
-binding protein and that direct interaction of Ca(2+)-
CLM
with
P-gp
, while not affecting its binding of [3H]VBL, down-modulates the translocation of this agent in the presence of ATP.
...
PMID:Functional modulation of multidrug resistance-related P-glycoprotein by Ca(2+)-calmodulin. 774 32
The ability of malignant cells to develop resistance to chemotherapeutic drugs is a major obstacle to the successful treatment of clinical tumors. The phenomenon multidrug resistance (MDR) in cancer cells results in cross-resistance to a broad range of structurally diverse antineoplastic agents, due to outward efflux of cytotoxic substrates by the mdr1 gene product,
P-glycoprotein
(
P-gp
). Numerous pharmacologic agents have been identified which inhibit the efflux pump and modulate MDR. The biochemical, cellular and clinical pharmacology of agents used to circumvent MDR is analyzed in terms of their mechanism of action and potential clinical utility. MDR antagonists, termed chemosensitizers, may be grouped into several classes, and include calcium channel blockers,
calmodulin
antagonists, anthracycline and Vinca alkaloid analogs, cyclosporines, dipyridamole, and other hydrophobic, cationic compounds. Structural features important for chemosensitizer activity have been identified, and a model for the interaction of these drugs with
P-gp
is proposed. Other possible cellular targets for the reversal of MDR are also discussed, such as protein kinase C. Strategies for the clinical modulation of MDR and trials combining chemosensitizers with chemotherapeutic drugs in humans are reviewed. Several novel approaches for the modulation of MDR are examined.
...
PMID:Pharmacologic circumvention of multidrug resistance. 776 25
Flunarizine, a diphenylpiperazine calcium channel blocker, is known to increase tumor blood flow. It also interferes with
calmodulin
function, repair of DNA damage and drug resistance associated with
P-glycoprotein
. Flunarizine was tested for its ability to modulate either cyclophosphamide- or melphalan-induced growth delay for a drug-resistant rhabdomyosarcoma xenograft (TE-671 MR) and the drug-sensitive parent line (TE-671), in which
P-glycoprotein
is not involved in the mechanism of drug resistance. Tumour blood flow was increased by 30% after a flunarizine dose of 4 mg kg-1, but no modification in growth delay was induced by melphalan (12 mg kg-1). In contrast, a 60 mg kg-1 dose of flunarizine had no effect on tumour blood flow, but the same dose created significant enhancement in melphalan-induced tumour regrowth delay in both tumour lines. The dose-modifying factor for flunarizine as an adjuvant to melphalan was approximately 2 for both tumour lines. Although blood flow measurements were not performed with the combination of flunarizine and melphalan, the results from flunarizine alone suggested that augmentation of melphalan cytotoxicity is not mediated by changes in blood flow. In contrast, flunarizine did not affect drug sensitivity to cyclophosphamide in groups of animals bearing the drug-sensitive parent tumour line. These results suggest that the mechanism of drug sensitivity modification by flunarizine is not related to modification of tumour blood flow, but may be mediated by modification of transport mechanisms that are differentially responsible for cellular uptake and retention of melphalan as compared with cyclophosphamide.
...
PMID:Flunarizine enhancement of melphalan activity against drug-sensitive/resistant rhabdomyosarcoma. 777 8
The purpose of this study was to identify calcium channel and
calmodulin
antagonists effective in increasing the cytotoxic effects of several chemotherapeutic drugs against UV-2237 murine fibrosarcoma MDR cells. Among 8 compounds tested at nontoxic concentrations, flupentixol, a piperazine-substituted thioxanthene, was the most potent in enhancing the cytotoxicity of anticancer drugs commonly associated with the multidrug resistant (MDR) phenotype, such as Adriamycin, actinomycin D, vinblastine, and vincristine, but not 5-fluorouracil, a drug usually unaffected by MDR. The chemosensitizing effects of flupentixol were produced by increasing intracellular drug accumulation via a mechanism unrelated to the binding of the plasma membrane
P-glycoprotein
.
...
PMID:Reversal of multidrug resistance in murine fibrosarcoma cells by thioxanthene flupentixol. 789 37
The ability of several Ca(2+)-entry blockers, neuroleptics and local anaesthetics to depress the
P-glycoprotein
-mediated resistance to vincristine was studied in vitro using the L1210/VCR cell line. This cell line was obtained by long-term adaptation of the L1210 mouse leukaemic cell line on vincristine and showed an overexpression of
P-glycoprotein
and accompanying multidrug resistance (MDR) which was defined as a cell resistance to several cytostatics such as vincristine, vinblastine and actinomycin D. Efficiency of the drugs applied to reverse this resistance was as follows: for Ca(2+)-entry blockers: verapamil (VER) > or = galopamil (GAL) > flunarizine (FLU) >> diltiazem (DIL) > nimodipine (NIM) > or = nifedipine (NIM); for neuroleptics: trifluoperazine (TFP) > chlorpromazine (CHP) > thioridazine (TRD) > perphenazine (PER); for local anaesthetics: carbanilate-Ca7 > cinchocaine (CIN) >> carbanilate-Ca3 > articaine (ART) > carbanilate CAO > lidocaine (LID). Quaternary cabanilate derivatives (Ca7Q and Ca3Q) with permanent positive charge were found to be unable to reverse the vincristine resistance of L1210/VCR cells. No reasonable correlation between the ability of calcium-entry blockers (DIL, VER, GAL, NIF, NIM and FLU) to reduce the viability of L1210/VCR cells growing in the medium supplemented with vincristine and their reported affinity to the L-type of calcium channel was observed. On the other hand, significant positive correlations were observed between both the inhibitory action of local anaesthetics on propagation of action potential in rat sciatic nerve and the ability of drugs to interact with
calmodulin
and the ability of the respective drug to reverse the resistance of L1210 cells to vincristine.
...
PMID:Reversal effects of several Ca(2+)-entry blockers, neuroleptics and local anaesthetics on P-glycoprotein-mediated vincristine resistance of L1210/VCR mouse leukaemic cell line. 792 90
P-glycoprotein
, an active transporter that pumps a diverse range of hydrophobic compounds out of cells, has recently been proposed to function as, or regulate, a volume-activated, anion-selective channel (Valverde, M.A., Diaz, M., Sepulveda, F. V., Gill, D. R., Hyde, S. C., and Higgins, C. F. (1992) Nature 355, 830-833). In this study a number of compounds known to inhibit
P-glycoprotein
-mediated drug pumping were tested for their effect on the osmotically activated release from HeLa cells of I-, a known substrate of volume-activated anion channels, and taurine, a sulfonic amino acid that serves as an important organic osmolyte in many cell-types. Tamoxifen, 4-iodotamoxifen, and pyrrolidino-4-iodotamoxifen (idoxifene) were potent blockers of osmotically activated I- and taurine efflux. Other known
P-glycoprotein
inhibitors (verapamil, cyclosporin A, pimozide, trifluoperazine, ICI 164, and ICI 182) were less effective. For all compounds tested the effect on taurine release was the same as that on I- release, consistent with the hypothesis that swelling-activated taurine release is via anion-selective channels. There was no positive correlation between the effect of the inhibitors on osmotically activated solute release and their effect on
P-glycoprotein
-mediated drug transport. In contrast, there was a strong positive correlation between the IC50 values for the effect of the inhibitors on volume-activated solute release and those for their effect on
calmodulin
. These data raise doubts as to whether the effect of
P-glycoprotein
inhibitors on volume-activated channels is a consequence of their interaction with
P-glycoprotein
and indicate a possible role for
calmodulin
, or a cell component having at least some physical similarities, in controlling channel activity.
...
PMID:Inhibition of volume-activated I- and taurine efflux from HeLa cells by P-glycoprotein blockers correlates with calmodulin inhibition. 796 17
Multidrug resistance (MDR) corresponds to the cross-over resistance of tumour cells to structurally unrelated cytotoxic chemotherapeutic drugs. One of the mechanisms causing this resistance is the enhanced expression of a transmembrane drug efflux pump
P-glycoprotein
(P-170). Reversal of
P-glycoprotein
-associated MDR has received much attention in recent years. In experimental cell lines, P-170 and the glutathione redox cycle seem to contribute to this phenomenon; P-170 may be inactivated by calcium and
calmodulin
antagonists and the glutathione redox cycle altered by buthionine sulphoximine (BSO). Treatment of human MCF-7 breast cancer cells with chemosensitizers (CS), such as verapamil, trifluoperazine or BSO, for 72 hr resulted in an enhanced sensitization of cells to Adriamycin, trifluoperazine being the most potent compound in the reversion of chemoresistance. In these Adriamycin sensitive or resistant cells, treated or not by the CS, the possible role of calcium and cyclic adenosine monophosphate (cAMP) in mediating the reversion of chemoresistance to Adriamycin was investigated. It was found that intracellular calcium was approximately 2-fold higher in resistant than in sensitive cells, the opposite was true for cAMP. Modifications in calcium and cAMP levels were observed in MCF-7 resistant cells after treatment with verapamil and BSO; trifluoperazine had no effect on these two parameters. These results seemed to rule out any implication of calcium and cAMP levels in the contribution of these three chemosensitizers in the mechanisms of reversion of chemoresistance to Adriamycin.
...
PMID:Comparative study of intracellular calcium and adenosine 3',5'-cyclic monophosphate levels in human breast carcinoma cells sensitive or resistant to Adriamycin: contribution to reversion of chemoresistance. 808 Apr 43
A newly synthesized
calmodulin
antagonist, (S)-P-(2-aminoethyloxy)-N-[2-(4-benzyloxy-carbonylpiperazinyl++ +)-1-(P-methoxybenzyl)ethyl]-N-methylbenzenesulfonamide dihydrochloride (W-77), acts as a calcium-independent uncompetitive antagonist which binds to glutathione-S-transferase (GST). We purified GST from human placenta using drug affinity chromatography on a column of W-77 coupled with Sepharose 6B and demonstrated that W-77 bound to GST. A spectrophotometric assay also showed that W-77 inhibited GST activity. We prepared Adriamycin-resistant and -sensitive cells from human ovarian serous cystadenocarcinomas. Immunoblot analysis revealed that GST expression was increased in the Adriamycin-resistant cells. We also purified GST from Adriamycin-resistant cells and found that W-77 bound to the GST obtained from these ovarian carcinoma cells. Adriamycin resistance was partially overcome by the addition of W-77 (10 microM) to the cultured cells. In addition, we investigated the effect of W-77 on
P-glycoprotein
. Northern blot analysis revealed MDR1 gene expression in Adriamycin-resistant cells. Although W-77 was less potent in increasing the intracellular Adriamycin content than verapamil, it was more effective in overcoming Adriamycin resistance. These results suggest that W-77 enhances the antitumor activity of Adriamycin by inhibiting both GST and
P-glycoprotein
.
...
PMID:A newly synthesized bifunctional inhibitor, W-77, enhances adriamycin activity against human ovarian carcinoma cells. 809 73
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