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)

An actinomycin D selected, multidrug-resistant (MDR) hamster CHO subline showed strong expression of the P-glycoprotein and sorcin genes together with several other alterations such as a: (i) reduced growth rate, (ii) lowered topoisomerase II, (iii) lowered glutathione-S-transferase-P gene expression, and (iv) the emergence of a 15.5 kDa protein. Besides high resistances to adriamycin, actinomycin D, and vincristine, we observed a lowered sensitivity towards bleomycin, a rather hydrophilic drug usually not involved in P-glycoprotein associated MDR. Moreover, the MDR subline showed a pronounced collateral (enhanced) sensitivity towards the sterically pure dihydropyridine anticancer drug dexniguldipine-HCl (B859-35) preventing its characterization for MDR modulation here. At a non-cytotoxic dose (10 microM) the immunosuppressive cyclic peptide cyclosporin A completely abolished the resistance to vincristine, partially reversed the resistance to teniposide and strongly enhanced the sensitivity towards bleomycin, while not influencing the drug sensitivities of the parental cell line. Buthionine sulfoximine (BSO), an agent depleting cellular glutathione levels, distinctly increased the sensitivity towards teniposide at nontoxic doses (50 microM) exclusively in the MDR subline, while it did not alter vincristine or bleomycin cytotoxicity.
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PMID:MDR hamster cells exhibiting multiple altered gene expression: effects of dexniguldipine-HCl (B859-35), cyclosporin A and buthionine sulfoximine. 128 2

The properties of several multidrug resistant (MDR) Chinese hamster ovary (CHO) cell lines which are verapamil hypersensitive have been investigated, extending our earlier study of two such cell lines. It was observed that increasing levels of multidrug resistance are associated with increasing verapamil and nicardipine sensitivity, although the cell lines are not hypersensitive to cyclosporin A. Although there is appreciable amplification of the P-glycoprotein gene at higher levels of multidrug resistance/verapamil hypersensitivity, there is only very low or no amplification of five flanking genes, including the sorcin gene. Low levels of resistance (3-10 fold) appear to involve increased P-glycoprotein gene expression at the level of transcription. P-glycoprotein levels of the cell lines have been measured by flow cytometry using the monoclonal antibody C219, and there is a general correlation between P-glycoprotein overexpression, increased levels of the corresponding mRNA and the level of verapamil hypersensitivity.
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PMID:Amplification and expression of mdr genes and flanking sequences in verapamil hypersensitive hamster cell lines. 170 42

The relationships between resistance to adriamycin, vincristine, colchicine and etopside, expression of P-glycoprotein and CP22 (sorcin), and resistance modification by verapamil and cyclosporin A have been studied in a panel of multidrug-resistant (MDR) mouse tumour cell lines. Whereas there was a generally good correlation between the degree of resistance and the amount of P-glycoprotein, no relationship between resistance and CP22 expression was seen. At 3.3 microM verapamil, the sensitisation of the MDR cell lines was no greater than that of the parent line. At 6.6 microM verapamil, however, sensitisation of the MDR lines generally exceeded that of the parent line, although the line CR 2.0, expressing very high levels of P-glycoprotein was an exception. Little sensitisation to etoposide was seen in any of the lines. When cyclosporin A was used as the sensitiser at either 2.1 or 4.2 microM, there was a greater effect in lines expressing moderate to high levels of P-glycoprotein than in the parent line, although this tendency was less for adriamycin than for the other cytotoxics. Sensitisation to etoposide was much greater with cyclosporin A than with verapamil. At low levels (less than 1 microM) of CsA, however, sensitisation to colchicine was greater in the parent line than in cell line CR 2.0. These studies indicate that chemosensitisation by verapamil and cyclosporin A is extremely complex, depending upon sensitiser dose, the particular cytotoxic and the cell line. At low doses of the sensitisers, the sensitisation may be greater in lines expressing low levels of P-glycoprotein than in lines showing high levels.
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PMID:Chemosensitisation by verapamil and cyclosporin A in mouse tumour cells expressing different levels of P-glycoprotein and CP22 (sorcin). 197 3

Monoclonal antibody against the Mr 22,000 calcium-binding protein (sorcin) from an adriamycin-resistant myelogenous leukemia cell line K562 (K562/ADM) was prepared and used as a probe to study the localization of sorcin in K562/ADM cells and the parental cell line, K562. Analysis of extracts from K562/ADM cells by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fluorescence image analysis showed that K562/ADM cells possessed abundant sorcin in the cytoplasm which was almost entirely absent from the drug-sensitive parental cell line, K562. Furthermore, immuno-electron microscopic studies revealed that sorcin was closely associated with free ribosomes, rough endoplasmic reticulum, mitochondria, microfilament bundles and perinuclear membranes. These observations provide the first clue that the Ca-binding protein, sorcin, may play an important role in the development of the multidrug resistance phenomenon, although the relationship between sorcin and P-glycoprotein is still unknown.
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PMID:Immunocytochemical identification and localization of the Mr 22,000 calcium-binding protein (sorcin) in an adriamycin-resistant myelogenous leukemia cell line. 256 83

Protein phosphorylation is altered in multidrug resistant, reverse transformed Chinese hamster cells selected for resistance to vincristine (DC-3F/VCRd-5L) or actinomycin D (DC-3F/AD X), as compared to drug-sensitive parental DC-3F cells. Evidence for this was obtained by gel electrophoretic analysis of proteins phosphorylated in vitro in the presence of [gamma -32P]ATP. In general, the level of incorporation of 32P into resistant cell proteins was higher than into proteins of sensitive cells, when reactions were carried out in either the presence or absence of exogenous protein kinase modulators. Phosphorylation of P-glycoprotein a multidrug resistance-related protein, and of sorcin, a 22 kDa calcium-binding protein overproduced in many multidrug resistant cells including DC-3F/VCRd-5L, was demonstrated. Analysis of proteins metabolically labeled with [32P]-orthophosphate suggests that protein phosphorylation differences in cell-free extracts are representative of events in the intact cells. Data support the probability that a variety of kinase and/or phosphatase activities were altered in the multidrug resistant cells. These may be associated with resistance development, P-glycoprotein function, reverse transformation, state of differentiation, inhibition of cellular proliferation, or all of these components.
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PMID:Protein phosphorylation in multidrug resistant Chinese hamster cells. 257 75

Multidrug resistance (MDR) is associated with overproduction of Mr 170,000 membrane proteins (P-glycoproteins) caused by either gene amplification, transcriptional activation, or both. In rodents the amplified domain comprises genes that encode P-glycoproteins and at least five unrelated genes, one of which encodes the calcium-binding protein sorcin. The amplification and increased expression of these genes always includes one P-glycoprotein-encoding gene (pgp1 in hamsters, homologous to mdr1 in humans). In human MDR cells only elevated mdr1 expression has been shown thusfar, although another P-glycoprotein encoding gene (mdr3, homologous to hamster pgp3) is closely linked. Here we show that the human homolog of the hamster sorcin gene resides on chromosome 7 like the P-glycoprotein-encoding genes. Furthermore, gene classes designated 4, 5, and 6 are coamplified with mdr1 and mdr3 in the human ovarian carcinoma cell line 2780AD, which strongly suggests that the overall structure of the human MDR domain is the same as in rodents. Class 6 was moderately and mdr1 was highly overexpressed in this cell line. Four other human MDR cell lines also have much higher mdr1 overexpression than expected from the relatively low levels (2- to 30-fold) of gene amplification. This contrasts with the results of previous work with rodent MDR cells, in which the increase in P-glycoprotein mRNA levels usually parallels the increase in gene copy number. Although four of the five human MDR cell lines have coamplified mdr3, its expression was undetectable. Our results confirm the central role of the mdr1 (pgp1) gene in MDR and suggest that different cross-resistance patterns are not due to differential expression of different P-glycoprotein genes.
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PMID:Genes amplified and overexpressed in human multidrug-resistant cell lines. 290 6

At least five gene classes are amplified in the multidrug-resistant CHO cell line CHRC5. Protein products have been identified for two classes; class 2 codes for the large membrane P-glycoprotein, whereas class 4 encodes the small cytoplasmic calcium-binding protein sorcin (V19). By DNA analysis we have shown previously that these five genes are linked in two groups: class 1 + 2 + 3; and class 4 + 5. By use of in situ hybridization with complementary DNAs derived from the resistant cell line we demonstrate here that genes from both linkage groups are amplified and situated together in each of two different chromosomal regions of the resistant Chinese hamster cell line. The positions of the amplicons correspond to cytogenetically identified homogeneously staining regions in an altered 7q+ chromosome and in a rearranged Z-7 [t(3;4)] chromosome. The native genes were mapped both in the CHRC5 line and in a normal diploid Chinese hamster cell strain, CHNF 86. We confirm the position of the class 2 gene on 1q26 and we show that class 4 and 5 genes are located in the same region of 1q. We conclude that the gene classes 2, 4, and 5 are closely juxtaposed in the normal Chinese hamster genome and comprise one amplicon in resistant cells. Our results are compatible with the hypothesis that multidrug resistance is due to overexpression of P-glycoprotein genes and that the other genes amplified in the CHRC5 line are coamplified because they happen to lie close to the P-glycoprotein genes.
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PMID:Chromosomal localization of three genes coamplified in the multidrug-resistant CHRC5 Chinese hamster ovary cell line. 356 8

Exposure of the Chinese hamster ovarian AuxB1 cell line in vitro to fractionated X-irradiation generated sublines designated DXR-10, which proved resistant to multiple drugs and overexpressed P-glycoprotein (Pgp), as judged by Western blotting using the C219 monoclonal antibody. Further characterization of these irradiated DXR-10 sublines has provided evidence for: (i) the expression of cross-resistance to gramacidin D, taxol, puromycin and Navelbine, but not to daunomycin or mitoxantrone; (ii) overexpression of the class I Pgp, as judged by Western blotting using the C494 monoclonal antibody; (iii) decreased accumulation of 3H-vincristine, which could be enhanced by verapamil addition; (iv) unaltered accumulation and subcellular distribution of adriamycin; (v) significantly increased rhodamine 123 accumulation in the presence of verapamil; (vi) plasma-membrane ultrastructural modifications resulting in a significantly increased surface area; (vii) numerous clonal karyotypic alterations, with abnormalities involving the long arm of chromosome 1 being consistently identified; (viii) a lack of overexpression of sorcin; (ix) increased total glutathione levels and overexpression of glutathione S-transferase pi. The fact that only certain of these features are considered characteristic of the 'classic' multidrug-resistant CHRC5 cell line supports our earlier proposal that exposure to fractionated X-irradiation results in the expression of a unique drug-resistance phenotype.
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PMID:Characterization of the P-glycoprotein over-expressing drug resistance phenotype exhibited by Chinese hamster ovary cells following their in-vitro exposure to fractionated X-irradiation. 809 57

Previous work has established that aging in mice leads to an accumulation of T cells that express high levels of P-glycoprotein, a plasma membrane pump that mediates multiple drug resistance in tumor cells but whose function in normal T cells is still obscure. Pgp+ cells seem to be functionally defective: isolated from the CD4 memory population of young mice, they are unresponsive to T cell receptor-dependent stimuli in tests for proliferation and cytokine production. The proliferative defect can, however, be overcome by exposure to PMA plus the calcium ionophore ionomycin, suggesting that the Pgp+ cells may have a specific defect in calcium signal generation. We show here that Pgp+ T cells, from young or old mice, do indeed show smaller changes in intracellular calcium ion concentration than Pgp- cells, when activated either by Con A, anti-CD3 antibodies, or ionomycin. The difference between Pgp+ and Pgp- cells is apparent even in experiments on isolated CD4 memory T cells from young mice and thus is not simply a consequence of the age-dependent increase in memory cell numbers. Although the molecular basis for the abnormality in calcium signal generation by Pgp+ cells is still uncertain, our data suggest that the effect could be due to inter-subset differences in levels of sorcin, a 22 kDa cytoplasmic protein that is co-expressed with P-glycoprotein in many tumor cells and which binds free calcium ion with high affinity. Sorcin levels are higher in Pgp+ CD4 cells than in Pgp- CD4 cells of young mice and increase with age in CD4 cells, consistent with the hypothesis that sorcin interferes with calcium signals in the age-sensitive Pgp+ T cell subset.
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PMID:Calcium signal abnormalities in murine T lymphocytes that express the multidrug transporter P-glycoprotein. 1022 45

Paclitaxel, an antimitotic, anticancer agent, induces cell cycle arrest in the mitotic phase by binding to the beta-tubulin subunit and forming highly stable microtubule polymers that resist depolymerization. The overexpression of the P-glycoprotein (P-gp) and/or alteration in the cellular microtubules is associated with the development of paclitaxel resistance. However, we have established a paclitaxel-resistant human ovarian carcinoma subline (2008/13/4) wherein the degree of resistance could not be correlated with overexpression of P-gp, alterations in the alpha- and beta-tubulin isotypes, or changes in the drug-binding affinity of the microtubules. mRNA differential display analysis revealed the overexpression of sorcin, a calcium-binding protein in the 2008/13/4 cells. However, no detectable changes in the intracellular calcium levels were detected in the parental and the paclitaxel-resistant variant. Furthermore, co-treatment with A23187, a calcium ionophore, did not alter the cytotoxicity of paclitaxel against the parental and the paclitaxel-resistant cells. Transfection of the parental 2008 cells with full-length sorcin cDNA induced a low level (3-5-fold) of paclitaxel resistance. In addition, transfection of human breast cancer cells with the full-length sorcin cDNA also led to the induction of a low level of paclitaxel resistance in the transfectants. Although the overexpression of sorcin did not produce high levels of paclitaxel resistance, the results obtained present compelling evidence of the involvement of sorcin in developing low-level paclitaxel resistance in a variety of tumor cells. The precise biochemical mechanism(s) by which sorcin overexpression induces low-level paclitaxel resistance is currently under investigation.
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PMID:Overexpression of sorcin, a calcium-binding protein, induces a low level of paclitaxel resistance in human ovarian and breast cancer cells. 1193 48


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