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 number of recent studies have implied that a relationship exists between cellular sensitivities to tumor necrosis factor (TNF) and expression of the classic multidrug resistance (MDR) phenotype. However, different conclusions have been reported concerning whether TNF sensitivity is positively or negatively correlated with MDR (Hong, W.-S.; Sijo, N.; Sasaki, Y.; Shinkai, T.; Eguchi, K.; Sakurai, M.; Takamashi, H.; Nakano, H.; Nakagawa, K.; Twentyman, P. R. Jpn. J. Can. Res. (Gann) 78:1274-1280; 1987 and Dollbaum, C.; Creasey, A. A.; Dairkee, S. H.; Hiller, A. J.; Rudolph, A. R.; Lin, L.; Vitt, C.; Smith, H. S. Proc. Natl. Acad. Sci. USA 85:4740-4755; 1988). An apparent relationship of TNF sensitivity to P-glycoprotein (P-170gp) mediated MDR was investigated in EL4 murine T-lymphoma cell lines sensitive and resistant to Adriamycin (ADM). No consistent association was found between MDR and TNF responses when the lines were subcloned. Whereas the MDR phenotype of subclones (as assessed by ADM resistance and P-170gp expression) reflected that of the cell line from which they were derived, the TNF sensitivity of subclones varied widely. Also consistent with independence of P-170gp mediated MDR and TNF response, the P388/ADM cell line (exhibiting P-170gp mediated MDR) remained as resistant to TNF as the P388 parental line. In addition, no evidence was found of modified recognition of MDR EL4 cell lines by host defense effector cells, and gamma-interferon failed to enhance the susceptibility of either parental or MDR cell line to TNF. These results may be of value in considering therapeutic studies using the ADM/TNF combination treatment.
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PMID:The relationship between multidrug resistance and tumor necrosis factor resistance in an EL4 cell line model. 197 58

Acquired resistance to diverse chemotherapeutic agents has been associated with overexpression of the P-glycoprotein. We have selected human U-937 cells for clones resistant to the cytotoxic agents doxorubicin (U-A20) and vincristine (U-V20). The results demonstrate that P-glycoprotein-positive U-A20 and U-V20 cells exhibit resistance to inducers of internucleosomal DNA fragmentation. Although parental U-937 cells responded to ionizing radiation with the DNA laddering characteristic of physiological cell death, the drug-resistant lines were insensitive to this effect. The U-A20 and U-V20 clones were also resistant to endonucleolytic DNA cleavage associated with exposure to tumor necrosis factor or ceramide. Previous work has demonstrated that physiological cell death is inhibited by overexpression of the Bcl-2 protein. However, analysis of Bcl-2 revealed similar levels in the parental and drug-resistant cells. In contrast, we show that U-A20 and U-V20 cells overexpress the Bcl-2-related protein, Bcl-xL. Moreover, studies with a U-937 cell line transfected with a Bcl-XL expression vector confirm resistance to ionizing radiation-induced DNA fragmentation and cell killing. These findings suggest that, unlike Bcl-2, Bcl-XL may be constitutively overexpressed as a result of selection for cytotoxic drug resistance and that Bcl-XL participates in an acquired form of multimodality resistance to chemotherapeutic agents and radiation.
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PMID:Overexpression of Bcl-XL by cytotoxic drug exposure confers resistance to ionizing radiation-induced internucleosomal DNA fragmentation. 779 4

Some "multidrug-resistant" (MDR) cell lines are not associated with a defect in drug accumulation or with the overexpression of P-glycoprotein. These cell lines are defined as "atypical MDR" (at-MDR) and they often express altered or mutated topoisomerase II. We investigated the ability of tumor necrosis factor to reverse at-MDR (in the human ovarian cancer cell line A2780 DX3) on the basis of its efficacy in potentiating in vitro topoisomerase II-targeted drugs, and because there is convincing evidence that the synergy is due to an increased number of topoisomerase-associated strand-breaks as well as to an increased level of extractable topoisomerase.
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PMID:Circumvention of atypical multidrug resistance with tumor necrosis factor. 814 94

The unidirectional brain-to-blood transport system for corticotropin-releasing hormone (CRH) across the blood-brain barrier could be instrumental in the homeostasis of central CRH. To characterize this system, the intracerebroventricular injection of 125I-CRH was used in mice. CRH was rapidly transported out of the brain with a half-time disappearance (t1/2) of 15 min, much faster than albumin (t1/2 = 50 min). Kinetic analysis revealed a saturable component with a low maximum velocity (apaproximately 0.020 nmol x min(-1) x brain(-1)) and low capacity (Michaelis constant approximately 1.4 nmol/brain). Transport was inhibited by verapamil, ouabain, and colchicine but not by cyclosporin. Transport was increased by corticosterone and inhibited by tumor necrosis factor-alpha and beta-endorphin. These results suggest that the specific unidirectional brain-to-blood transport system for CRH is dependent on energy and calcium channels, involves microtubules, is independent of the P-glycoprotein transporter, and is acutely modulated by adrenal steroids, cytokines, and endogenous opiates. This suggests its participation in the control of the stress response.
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PMID:Acute modulation of active carrier-mediated brain-to-blood transport of corticotropin-releasing hormone. 912 40

We previously have exposed U-937 human leukemia cells to stepwise increased concentrations of the anticancer drug etoposide, and this treatment has resulted in stable sublines (termed U-937/RE) exhibiting various extents of resistance to the drug and constitutively expressing c-fms mRNA, a specific marker of monocytic differentiation. In this report, we pursued studies to show that the P-glycoprotein blocker, verapamil, partially restores sensitivity to etoposide in U-937/RE cells. Further, the U-937/RE cells exhibit differential sensitivities to compounds that induce maturation of U-937 cells, as judged by the ability to reduce nitroblue tetrazolium and by morphologic changes, and increased sensitivities to apoptosis induction by the cytokines tumor necrosis factor (TNF) and lymphotoxin (LT) and the anticancer drugs 9-nitrocamptothecin and doxorubicin. In addition, the U-937/RE cells, xenografted in immunodeficient mice, demonstrate decreased or no ability to induce tumors. Taken together, these findings indicate that U-937/RE cells differ from the parental U-937 cells in several functional properties and can serve as models to develop protocols for treatment of human leukemia.
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PMID:Altered sensitivities to anticancer and differentiation agents in etoposide-resistant human myeloid leukemia U-937 cells. 950 84

The endothelium both initiates and responds to a cascade of events triggered by cytokines. Enhanced formation of NO, especially by inducible nitric oxide- synthase (i NOS), is largely stimulated by tumor necrosis factor (TNF). Nitrogen oxides are reactive intermediate molecules functioning in neural transmission, and vasodilatation. The aim of our study was to investigate the effect of TNF and Staphylococcus aureus, a TNF inducing agent on the NO production of brain endothelial cells in vitro. The effect of the same agent was investigated on the MDR expression of endothelial cells. Both TNF and Staphylococcus aureus resulted in enhanced NO production. Western blot analysis showed enhanced expression of iNOS, which could be inhibited by pentoxifylline, an inhibitor of TNF synthesis. Flow cytometric analysis revealed that the brain capillary endothelial cells exerted P-glycoprotein expression, which was not influenced by TNF. However, the mdr function itself in these cells was decreased by TNF. Cultured endothelial cells are excellent tools for the investigation of the possible connection between the NO production and MDR function, and for the estimation the effect of different agents influencing these activities, which might be important in blood-brain barrier function.
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PMID:Nitric oxide production and MDR expression by human brain endothelial cells. 971 8

Water-insoluble camptothecin (CPT) congeners are rapidly establishing themselves as promising anticancer drugs. In vitro, they have exhibited: (a) insensitivity to elevated levels of P-glycoprotein that confers multidrug resistance; (b) selective killing of malignant cells traversing the S-phase of the cell cycle, while leaving viable normal cells, which either are arrested at the S-G2 boundary or continue to divide; (c) no cross-resistance with several other anticancer drugs; and (d) potentiation or enhancement of cytotoxicity when appropriately used in combination with tumor necrosis factor, ionizing radiation, and hyperthermia. In addition, development of cell resistance to water-insoluble CPT congeners in vitro is accompanied by increased sensitivity to other anticancer drugs. Furthermore, water-insoluble CPT congeners have exhibited an unprecedented activity against a wide variety of human tumors xenografted in nude mice by inhibiting growth and inducing regression of carcinomas of the lung, breast, ovary, colon, stomach, pancreas, and prostate, as well as malignant melanoma, lymphoma, and leukemia. More importantly, oral administration of the water-insoluble CPT congeners in clinical studies with cancer patients makes other route(s) of administration unnecessary.
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PMID:Preclinical studies of water-insoluble camptothecin congeners: cytotoxicity, development of resistance, and combination treatments. 981 17

A major problem with treating patients with cancer by traditional chemotherapeutic regimes is that their tumors often develop a multidrug resistant (MDR) phenotype and subsequently become insensitive to a range of different chemotoxic drugs. One cause of MDR is overexpression of the drug-effluxing protein, P-glycoprotein. It is now apparent that P-glycoprotein may also possess a more generic antiapoptotic function that protects P-glycoprotein-expressing cancer cells and normal cells from cell death. Herein we show that cells induced to express P-glycoprotein either by drug selection or by retroviral gene transduction with MDR1 cDNA are resistant to cell death induced by a wide range of death stimuli, such as FasL, tumor necrosis factor (TNF), and ultraviolet (UV) irradiation, that activate the caspase apoptotic cascade.However, P-glycoprotein-expressing cells were not resistant to caspase-independent cell death mediated by pore-forming proteins and granzyme B.MDR P-glycoprotein-expressing cells were made sensitive to caspase-dependent apoptosis by the addition of anti-P-glycoprotein antibodies or verapamil, a pharmacological inhibitor of P-glycoprotein function. Clonogenic assays showed that P-glycoprotein confers long-term resistance to caspase-dependent apoptotic stimuli but not to caspase-independent cell death stimuli. This study has confirmed a potential novel physiological function for P-glycoprotein and it now remains to dissect the molecular mechanisms involved in the inhibition of capsase-dependent cell death by P-glycoprotein.
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PMID:P-glycoprotein protects leukemia cells against caspase-dependent, but not caspase-independent, cell death. 992 Aug 58

Multidrug resistance (MDR) is often characterized by the expression of P-glycoprotein (P-gp), a 170-kd ATP-dependent drug efflux protein. As well as effluxing xenotoxins, functional P-gp can confer resistance to caspase-dependent apoptosis induced by a range of different stimuli, including Fas ligand, tumor necrosis factor, UV irradiation, and serum starvation. However, P-gp-positive cells remain sensitive to caspase-independent death induced by cytotoxic T-cell granule proteins, perforin, and granzyme B. It is, therefore, possible that agents that induce cell death in a caspase-independent manner might circumvent P-gp-mediated MDR. We demonstrated here that hexamethylene bisacetamide (HMBA) induced equivalent caspase-independent cell death in both P-gp-positive and -negative cell lines at concentrations of 10 mmol/L and above. The HMBA-induced death pathway was marked by release of cytochrome c from the mitochondria and reduction of Bcl-2 protein levels. In addition, we show that functional P-gp specifically inhibits the activation of particular caspases, such as caspases-8 and -3, whereas others, such as caspase-9, remain unaffected. These studies greatly enhance our understanding of the molecular cell death events that can be regulated by functional P-gp and highlight the potential clinical use of drugs that function via a caspase-independent pathway for the treatment of MDR tumors.
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PMID:HMBA induces activation of a caspase-independent cell death pathway to overcome P-glycoprotein-mediated multidrug resistance. 1073 10

Paclitaxel and carboplatin chemotherapy is reported to be a platelet-sparing drug combination. This study investigated potential mechanisms for this observation by studying the effects of paclitaxel and carboplatin on (1) normal donor and chemotherapy patient-derived erythroid (burst-forming units-erythroid [BFU-E]), myeloid (colony-forming units-granulocyte/macrophage [CFU-GM]), and megakaryocyte (CFU-Meg) progenitor cell growth; (2) P-glycoprotein (P-gp) protein and glutathione S-transferase (GST) messenger RNA (mRNA) expression; (3) serum thrombopoietin (Tpo), stem cell factor (SCF), interleukin-6 (IL-6), IL-11, IL-1beta, IL-8, and tumor necrosis factor-alpha levels in patients treated with paclitaxel and carboplatin; and (4) stromal cell production of Tpo and SCF after paclitaxel and carboplatin exposure. CFU-Meg were more resistant to paclitaxel alone, or in combination with carboplatin, than CFU-GM and BFU-E. Although all progenitors expressed P-gp protein and GST mRNA, verapamil treatment significantly, and selectively, increased the toxicity of paclitaxel and carboplatin to CFU-Meg, suggesting an important role for P-gp in megakaryocyte drug resistance. Compared to normal controls, serum Tpo levels in patients receiving paclitaxel and carboplatin were significantly elevated 5 hours after infusion and remained elevated at day 7 (287% +/- 63% increase, P <.001). Marrow stroma was shown to be the likely source of this Tpo. It is concluded here that P-gp-mediated efflux of paclitaxel, and perhaps GST-mediated detoxification of carboplatin, results in relative sparing of CFU-Meg, which may then respond to locally high levels of stromal cell-derived Tpo. The confluence of these events might lead to the platelet-sparing phenomenon observed in patients treated with paclitaxel and carboplatin chemotherapy.
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PMID:Investigating the platelet-sparing mechanism of paclitaxel/carboplatin combination chemotherapy. 1115 79

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