Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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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)
Induction of
P-glycoprotein
-related multi-drug-resistance (MDR) has been shown in normal and malignant tissues to result from environmental stresses such as heat shock, exposure to carcinogens or X-ray irradiation. To identify conditions under which MDR is enhanced during anti-neoplastic chemotherapy, a cell line showing low-level intrinsic MDR was investigated. In the pleural
mesothelioma
cell line, PXF1118, less than 1% of cells expressed
P-glycoprotein
(
P-gp
), as shown by immunocytochemical staining with monoclonal antibody (MAb) MRK16. Exposure of PXF1118 to vincristine, vindesine, vinblastine or doxorubicin for 2-3 weeks led to an increase in the MDR cell fraction of up to 15-28% during 2 to 3 weeks. For doxorubicin and vindesine, dose-dependence was observed: drug concentrations not capable of eliciting cytotoxicity failed to induce significant
P-gp
expression. Nutrient starvation in aging medium, exposure to activated cyclophosphamide (even at high concentrations) or cisplatin caused only negligible MDR induction. After exposure to vindesine for 6 weeks, tumor colonies exhibited highly enhanced resistance to Vinca alkaloids, doxorubicin, etoposide and dacarbacine, whereas their sensitivity to mitomycin, activated cyclophosphamide or cisplatin remained unchanged. As determined by [3H]-thymidine uptake and proliferation antigen expression, induction of MDR phenotype was observed at minimal proliferative activity with no change in cell count during exposure to anti-cancer drugs, thus suggesting that the drug treatments changed the phenotype of the cells rather than selecting for a resistant sub-population. In addition, changes in cell differentiation were observed during MDR induction. Induction of
P-gp
during exposure to anti-cancer drugs thus provides a model for MDR development during initially successful chemotherapy. of
P-gp
during exposure to anti-cancer drugs thus provides
...
PMID:Induction of multiple-drug resistance during anti-neoplastic chemotherapy in vitro. 191 65
Eight cell lines were established from the pleural effusion of 4 patients with malignant mesothelioma. The most sensitive (FCCMES-4) and the most resistant (FCCMES-2)
mesothelioma
cell lines had IC50 of 0.66 and 1.85 microM for doxorubicin in clonogenic assays, respectively. In comparison with murine leukemic P388 cells,
mesothelioma
cell lines were 7.5- to 21-fold more resistant to doxorubicin. Co-incubation with verapamil significantly increased doxorubicin retention in one of the cell lines (FCCMES-2) expressing
P-glycoprotein
in 16.8% of the cells. These results indicate that doxorubicin resistance may be intrinsic in refractory
mesothelioma
patients and
P-glycoprotein
-mediated drug efflux may be involved in resistance of some of the mesotheliomas.
...
PMID:Doxorubicin retention and chemoresistance in human mesothelioma cell lines. 791 Jan 54
Tumor necrosis factor-alpha (TNF-alpha) has been shown to enhance the cytotoxicity of a variety of antineoplastic agents. To examine whether multidrug-resistant cells are targets of TNF-alpha, and whether TNF-alpha is capable of modulating chemoresistance of these cells, a pleural
mesothelioma
cell line (PXF1118L) and two multidrug-resistant sublines thereof were used as experimental models. Drug resistance of these cells was due to
P-glycoprotein
expression, as confirmed by (1) staining with a monoclonal antibody (MRK16) specific for human
P-glycoprotein
, (2) decreased accumulation of [3H]vinblastine that was reversed by verapamil, and (3) enhanced cytotoxicity of vindesine in the presence of verapamil. Parental and multidrug-resistant cells exhibited little but comparable sensitivity to TNF-alpha alone. Combining TNF-alpha with vindesine or, to a lesser extent, with doxorubicin, but not with cisplatin, resulted in greater cytotoxicity towards multidrug-resistant cells than seen for each compound alone, indicating a synergism. In contrast, TNF-alpha failed to modulate vindesine or doxorubicin cytotoxicity in parental cells. [3H]Vinblastine accumulation was unaffected by TNF-alpha, and chemoresistance was reduced by TNF-alpha also in the presence of verapamil (10 microM), indicating that TNF-alpha was acting in a way different from calcium-channel blockers. Though the molecular mechanism by which TNF-alpha was enhancing vindesine and doxorubicin cytotoxicity remained undefined in this study, the numbers of TNF-alpha binding sites on parental and on multidrug-resistant cells were similar, and
P-glycoprotein
expression was unmodulated during the entire 48 h incubation period. In conclusion, we show that TNF-alpha increases the cytotoxicity of anticancer drugs in multidrug-resistant tumor cells by a mechanism that differs from most chemosensitizing agents, including verapamil. Further studies will be needed to clarify the mechanism by which TNF-alpha synergizes with anticancer drugs.
...
PMID:Modulation of vindesine and doxorubicin resistance in multidrug-resistant pleural mesothelioma cells by tumor necrosis factor-alpha. 938 69
While human malignant mesothelioma is extremely resistant to chemotherapy, its intrinsic resistance mechanisms remain largely unknown. In this study, we used normal human mesothelial cells and 5 human
mesothelioma
cell lines not previously exposed to chemotherapeutic agents to demonstrate that the mRNA for the multidrug resistance-associated protein (MRP) and gamma-glutamylcysteine synthetase (gamma-GCSh) heavy subunit genes, but not the
P-glycoprotein
(MDR1) gene, are co-ordinately over-expressed in
mesothelioma
cell lines. Expression of MRP as detected with an anti-MRP antibody correlated with decreased doxorubicin accumulation and resistance of
mesothelioma
cells to this drug. Our results strongly suggest roles for MRP and gamma-GCSh in chemoresistance in mesotheliomas.
...
PMID:Co-ordinated over-expression of the MRP and gamma-glutamylcysteine synthetase genes, but not MDR1, correlates with doxorubicin resistance in human malignant mesothelioma cell lines. 949 45
BMS-184476 is a 7-methylthiomethyl ether derivative of paclitaxel that displays potency superior to paclitaxel against tumor cells in culture and human tumor xenografts. It also inhibits the growth of paclitaxel-resistant human tumor cell lines with multidrug resistance mediated by either
P-glycoprotein
or mutated tubulin. Given the known synergy between taxanes and cisplatin in vitro and their clinical activity in combination, we performed a Phase I trial of BMS-184476 as a 1-h i.v. infusion followed by cisplatin every 21 days. Twenty-seven patients with a variety of solid tumors and good performance status received 116 cycles of therapy at BMS-184476 doses of 40-60 mg/m(2) together with cisplatin at 75 mg/m(2). The early observation of hypersensitivity reactions required prophylactic premedication in all patients. At the planned highest dose of BMS-184476 (60 mg/m(2)) and cisplatin (75 mg/m(2)), we observed dose-limiting toxicity in the form of neutropenia and diarrhea. Also at this level, five patients experienced grade 3 or worse nausea and vomiting. Aggressive prophylactic treatment eliminated the gastrointestinal toxicity. Mild to moderate peripheral neuropathy was infrequent, as was alopecia. Patient benefits included three partial responses in patients with
mesothelioma
, esophageal cancer, and head and neck cancer, and two additional minor responses. Plasma pharmacokinetic data are available for 23 patients treated at 40-60 mg/m(2). The mean maximum plasma concentrations and areas under the curves increased in a dose-related manner. The pharmacokinetics of BMS-184476 appeared independent of dose. The mean (+/- SE) values for clearance, volume of distribution at steady state, and the apparent terminal half-lives of the three dose groups during cycle 1 were 243 +/- 5 ml/min/m(2), 423 +/- 58 l/m(2), and 32.2 +/- 4.5 h, respectively. BMS-184476 60 at mg/m(2) with cisplatin at 75 mg/m(2) with appropriate supportive therapy is the dose recommended for further evaluation.
...
PMID:Phase I and pharmacokinetic trial of the novel taxane BMS-184476 administered as a 1-hour intravenous infusion in combination with cisplatin every 21 days. 1461 2
The separation of benign reactive mesothelium (RM) from malignant mesothelial proliferation can be a major challenge. A number of markers have been proposed, including epithelial membrane antigen, p53 protein, and
P-glycoprotein
. To date, however, no immunohistochemical marker that allows unequivocal discrimination of RM from malignant pleural
mesothelioma
(MPM) has been available. A family of glucose transporter isoforms (GLUT), of which GLUT-1 is a member, facilitate the entry of glucose into cells. GLUT-1 is largely undetectable by immunohistochemistry in normal epithelial tissues and benign tumors, but is expressed in a variety of malignancies. Thus, the expression of GLUT-1 appears to be a potential marker of malignant transformation. Recently, in fact, some studies have shown that GLUT-1 expression is useful for distinguishing benign from malignant lesions. The purpose of the present study was to evaluate the diagnostic utility of GLUT-1 expression for diagnostic differentiation between RM and MPM. Immunohistochemical staining for GLUT-1 was performed in 40 cases of RM, 48 cases of MPM, and 58 cases of lung carcinoma. Immunohistochemical GLUT-1 expression was seen in 40 of 40 (100%) MPMs, and in all cases the expression was demonstrated by linear plasma membrane staining, sometimes with cytoplasmic staining in addition. GLUT-1 expression was also observed in 56 out of 58 (96.5%) lung carcinomas. On the other hand, no RM cases were positive for GLUT-1. GLUT-1 is a sensitive and specific immunohistochemical marker enabling differential diagnosis of RM from MPM, whereas it cannot discriminate MPM from lung carcinoma.
...
PMID:Immunohistochemical detection of GLUT-1 can discriminate between reactive mesothelium and malignant mesothelioma. 1719 90
