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)

The expression of MDR1 gene was investigated in human solid tumors with respect to adriamycin resistance. Forty fresh human surgical specimens were analyzed by RNA dot blot assay for their expression of the human MDR1 gene and by immunohistological staining using a monoclonal antibody against P-glycoprotein (MDR1 gene product). The MDR1 mRNA level was increased in 11 cases of 40 cancer patients, including three rectal cancers, two breast cancers, two gastric cancers, one colon cancer, one renal cell carcinoma, one gall bladder cancer and one malignant lymphoma of stomach. However, considerable variation of the MDR1 mRNA level was noted among cancers of a specific type. Immunohistochemical studies with the monoclonal antibody were shown to be positive in 18 tumors. In all tumors tested, the MDR1 mRNA level and the immunohistochemical analysis showed a significant correlation. However, two of five tumors which resisted adriamycin treatment were found to be negative in MDR1 transcript, but positive in immunohistological analysis. These results indicate that immunohistochemical analysis would be more sensitive for detecting P-glycoprotein-expression, and that resistance to adriamycin, being multifactorial, can be associated at least, in part with the increased amount of MDR1 gene product.
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PMID:Expression of the multidrug resistance gene in human tumors. 198 Sep 15

A series of murine thymic lymphoma cell sublines was selected in vitro for resistance to cis-diamminedichloroplatinum(II) (CDDP). The level of CDDP resistance correlated with reduced drug accumulation in these cells. A rabbit antiserum was raised against the plasma membrane of a CDDP-resistant subline and used in Western blot analyses. Increased expression of a surface antigen of approximately 200 kDa was observed and found to correlate with the degree of resistance. Further biochemical and immunological studies demonstrated that this is a plasma membrane glycoprotein. However, it is different from the multidrug resistance-associated P-glycoprotein with a molecular weight of about 170,000. We have called this unique CDDP resistance-associated membrane protein CPR-200.
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PMID:Identification of a membrane glycoprotein overexpressed in murine lymphoma sublines resistant to cis-diamminedichloroplatinum(II). 237 90

The development of multidrug resistance in MCF-7 human breast cancer cells and the acquisition of broad resistance to xenobiotics in rat hyperplastic nodules are both associated with increased P-glycoprotein (mdr) gene expression as well as changes in activities of intracellular detoxication enzymes; among these changes is a significant increase in the activity of the anionic isozyme of glutathione-S-transferase (GST). We have isolated a cDNA encoding the human anionic glutathione-S-transferase, GST pi-1, from a cDNA library constructed from multidrug-resistant MCF-7 cells. The deduced amino acid sequence of GST pi-1 shows that while the human anionic GST displays 85% nucleotide and amino acid sequence homology to the rat anionic isozyme, it is markedly less related to human basic GST isozymes. We have examined the expression of GST pi and P-glycoprotein in 170 specimens of human tissues and tumors. P-Glycoprotein RNA expression was positive in eight of 23 lymphomas and two of 12 colon tumors; however, many other normal and malignant tissues, including lung, bladder, and breast tumors, had low or undetectable levels of P-glycoprotein RNA expression. In contrast, GST pi was readily detected in a wide variety of normal and malignant tissues. The level of GST pi mRNA expression in normal tissues was heterogeneous, with lowest levels found in liver and the highest levels found in lung, esophagus, and placenta. GST pi was also variably expressed in human tumors, with the lowest relative levels occurring in lymphoma and breast cancer and the highest levels found in lung cancer and head and neck tumors. In addition, comparison of paired specimens from the same patient indicated that GST pi expression was increased in many tumors relative to matched normal tissue.
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PMID:Expression of anionic glutathione-S-transferase and P-glycoprotein genes in human tissues and tumors. 246 54

Multidrug-resistant (MDR) cells demonstrate the increased activity of the membrane transport system performing efflux of diverse lipophylic drugs and fluorescent dyes from the cells. In order to detect MDR cells we have developed a simple test consisting of three steps: staining of the cells with fluorescent dye rhodamine 123, incubation in the dye-free medium and, finally, detection by fluorescence microscopy of the cells that have lost accumulated dye. The experiments with B-lymphoma cell lines with different degrees of MDR have shown that the cell fluorescence after the poststaining incubation is indeed inversely proportional to the degree of resistance. Application of this testing procedure to normal human or mouse leukocytes revealed the presence of the cells rapidly losing the dye in these populations. Cell fractionation experiments have shown that there are T-lymphocytes (most T-killers/suppressors and a part of T-helpers) that demonstrate rapid efflux of rhodamine 123. This characteristic was detected also in T-killer clones and cell line and in some T-lymphomas. The inhibitors of the MDR transport system, reserpine and verapamil, blocked the efflux of the dye from these cells. Rhodamine-losing T-lymphoma contained large amounts of the mRNA coding P-glycoprotein, the MDR efflux pump, and demonstrated increased resistance to rhodamine 123, gramicidin D, colchicine, and vincristine, the drugs belonging to the cross-resistance group for the MDR cells. The role of the increased activity of the MDR membrane transport system in T-lymphocytes is discussed.
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PMID:Multidrug-resistance phenotype of a subpopulation of T-lymphocytes without drug selection. 248 Sep 10

Many cancers have been cured by chemotherapeutic agents. However, other cancers are intrinsically drug resistant, and some acquire resistance following chemotherapy. Cloning of the cDNA for the human MDR1 gene (also known as PGY1), which encodes the multidrug efflux protein P-glycoprotein, has made it possible to measure levels of MDR1 RNA in human cancers. We report the levels of MDR1 RNA in greater than 400 human cancers. MDR1 RNA levels were usually elevated in untreated, intrinsically drug-resistant tumors, including those derived from the colon, kidney, adrenal gland, liver, and pancreas, as well as in carcinoid tumors, chronic myelogenous leukemia in blast crisis, and cell lines of non-small cell carcinoma of the lung (NSCLC) with neuroendocrine properties. MDR1 RNA levels were occasionally elevated in other untreated cancers, including neuroblastoma, acute lymphocytic leukemia (ALL) in adults, acute nonlymphocytic leukemia (ANLL) in adults, and indolent non-Hodgkin's lymphoma. MDR1 RNA levels were also increased in some cancers at relapse after chemotherapy, including ALL, ANLL, breast cancer, neuroblastoma, pheochromocytoma, and nodular, poorly differentiated lymphoma. Many types of drug-sensitive and drug-resistant tumors, including NSCLC and melanoma, contained undetectable or low levels of MDR1 RNA. The consistent association of MDR1 expression with several intrinsically resistant cancers and the increased expression of the MDR1 gene in certain cancers with acquired drug resistance indicate that the MDR1 gene contributes to multidrug resistance in many human cancers. Thus, evaluation of MDR1 gene expression may prove to be a valuable tool in the identification of individuals whose cancers are resistant to specific agents. The information may be useful in designing or altering chemotherapeutic protocols in these patients.
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PMID:Expression of a multidrug resistance gene in human cancers. 256 56

Two monoclonal antibodies of F (ab')2 form, MRK 16 and MRK 20 that recognize P-glycoprotein and P85 kD protein respectively, were useful to detect multidrug resistant cells in human lymphoma, leukemia and gastrointestinal cancer cell lines. They were classified into 4 groups: Group I (4 cell lines) was insensitive to vinca alkaloids, anthracyclines, etoposide (VP-16) and actinomycin-D (ACT-D), and reactive to MRK 16 and MRL 20. Group II (2 cell lines) was insensitive to vincristine (VCR), but not reactive to both antibodies. Group III (3 cell lines) was insensitive to anthracyclines and VP-16, but sensitive to vinca alkaloids and ACT-D, and reactive to MRK 20 but not to MRK 16. Group IV (all other cell lines) was sensitive to these drugs, and not reactive to both antibodies. MRK 16 detects P-glycoprotein-associated multidrug resistance (MDR), while MRK 20 detects P 85kd-associated novel MDR. These monoclonal antibodies were useful for detection of MDR cells in clinical samples.
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PMID:[Detection of multidrug resistant cells in human malignant diseases by monoclonal antibodies and strategy to eradicate resistant malignant cells]. 256 3

Prior studies have shown that the P-glycoprotein is a cell membrane efflux pump that is quantitatively increased in expression in multidrug-resistant tumor cell lines. In this study, fresh tumor tissues from patients with multiple myeloma, malignant lymphoma, or metastatic breast cancer were studied immunohistochemically for P-glycoprotein expression and for in vitro sensitivity to doxorubicin. Twenty-six patients who were either previously untreated or in relapse after chemotherapy had tumor specimens submitted that could be evaluated in both assays. The testing was done independently and blindly in separate laboratories instead of our being provided relevant clinical data on the patients. Tumor cells from 12 of the 26 patients (46%) stained positively for P-glycoprotein. Fifteen of the 26 specimens (58%) exhibited drug resistance in vitro. Although only three (21%) of the 14 P-glycoprotein-negative tumors exhibited in vitro resistance to doxorubicin, all 12 fresh tumors that stained positively for P-glycoprotein were resistant to doxorubicin. The difference in frequency of intrinsic doxorubicin resistance between P-glycoprotein-negative and -positive tumors was highly significant (P less than .001). Similar trends were observed in each of the individual tumor categories and were statistically significant in myeloma and breast cancer. Four of the biopsy specimens that stained positively for P-glycoprotein and exhibited doxorubicin resistance were from patients who had not received prior cytotoxic chemotherapy. Similar conclusions were reached when results of drug sensitivity tests were ranked in relation to the median infective dose rather than by criteria based on correlations with clinical drug resistance. Our findings indicate that positive staining for P-glycoprotein associated with multidrug resistance predicts intrinsic cellular resistance of human cancers to doxorubicin. We anticipate that immunohistochemical staining for P-glycoprotein will prove useful in clinical oncology.
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PMID:Prediction of doxorubicin resistance in vitro in myeloma, lymphoma, and breast cancer by P-glycoprotein staining. 256 3

Using flow cytometry and immunocytochemistry, we investigated the reactivities of two different murine monoclonal antibodies (MAbs), MRK 16 and MRK 20, specific to adriamycin-resistant K562 cells (K562/ADM) with peripheral human mononuclear cells (MNC) (mainly blastic cells and lymphocytes) from 31 patients with leukaemia or malignant lymphoma. Reactivity with MRK 16 MAb was observed in five cases and reactivity with MRK 20 MAb in 18 cases. The cases were divided into three groups according to their reactivity patterns: group I, only the proportion of MRK 16-positive cells was increased; group II, only the proportion of MRK 20-positive cells was increased; group III, both MRK 16-and MRK 20-positive cells were increased. Some cases reflected the prior administration of adriamycin, vincristine, vinblastine and VP-16, which are known to induce P-glycoprotein expression. Expression of Mr 85,000 protein was observed more frequently than that of P-glycoprotein in leukaemia and malignant lymphoma, and this was not associated with either the total dose or period of administration of anticancer drugs. The expression of Mr 85,000 protein recognised by MRK 20 was further confirmed by Western blot analysis.
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PMID:High-level expression of MRK 16 and MRK 20 murine monoclonal antibody-define proteins (170,000-180,000 P-glycoprotein and 85,000 protein) in leukaemias and malignant lymphomas. 257 70

The fact that cancer cell acquires multidrug resistance to carcinostatics at cancer treatment is a very important subject clinically. The mode of multidrug-resistance is complicated, but the gene associated with multidrug resistance (MDR 1) has been isolated. It has become evident that MDR 1 gene carries membrane glycoprotein (P-glycoprotein) which occurs in the cell acquired drug-resistance. Assessment has been made this time regarding the occurrence of P-glycoprotein in the tumorous cells and tissues by the use of monoclonal antibody (C 219) to P-glycoprotein. Occurrence of P-glycoprotein in malignant lymphoma exhibited positivity in 9 cases out of 36 immunohistologically. 170 KD P-glycoprotein was detected in 4 cases out of 10 at Western blotting analysis of the protein isolated from the nuclear cell in the peripheral blood in the patients with leukemia. Further, P-glycoprotein positive cases were all progressive cases clinically and showed resistance to treatment. From these results, it has been clarified that occurrence of P-glycoprotein in haematological tumors is related to multidrug resistance.
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PMID:[Expression of P-glycoprotein (multidrug-resistance gene product) in haematological tumors]. 257 82

Forty cultured human leukemia and lymphoma cell lines never exposed to anticancer agents in culture, apart from doxorubicin (ADM)-resistant K562/ADM, were examined for reactivity with a monoclonal antibody, MRK16 in F(ab')2 form [MRK16-F(ab')2], which recognizes P-glycoprotein (P-gp). The relative resistance index to various drugs was calculated by dividing the 50% growth inhibitory concentration (IC50) of the test cell line by IC50 of K562, which was the negative control in the antibody experiment. MRK16-F(ab')2 reacted with four cell lines, K562/ADM, KYO-1, HEL and CMK, which had relative resistance index values of 2 or more to vincristine (VCR), vindesine, vinblastine, ADM, daunorubicin, mitoxantrone (MIT), etoposide (VP-16) and actinomycin-D (ACT-D). The level of resistance to VCR and ADM in these cell lines decreased significantly in the presence of 10 microM verapamil in vitro. Significant expression of mRNA of P-gp gene was also detected in K562/ADM, KYO-1 and HEL. MRK16-F(ab')2 did not react with 36 other cell lines. Among them, three cell lines, PL-21, P31/FUJ and KOPM-28, had relative resistance index values of 2 or more to anthracyclines, MIT and VP-16, but not to vinca alkaloids or ACT-D. The level of ADM-resistance in these cell lines did not decrease significantly in the presence of 10 microM verapamil. Five cell lines, ATL-1K, HL-60, KMOE-2, ML-1 and U266, had relative resistance index values of 2 or more to some of the drugs, but not to the others, and 19 other cell lines did not. These results indicate that the reactivity of MRK16-F(ab')2 correlates with a relative resistance index of 2 or more to all these drugs in cultured human leukemia and lymphoma cell lines.
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PMID:Multidrug resistance in cultured human leukemia and lymphoma cell lines detected by a monoclonal antibody, MRK16. 257 8

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