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 series of doxorubicin-resistant variants of the human LS174T colon carcinoma cell line was generated by stepwise selection. These variants also exhibited increased resistance to vinblastine, etoposide, cis-platinum, and melphalan, suggesting that resistance was multifactorial. The parental LS174T cell line and 3 resistant variants were examined for over-expression of P-glycoprotein, changes in total cellular glutathione content, and the level of topoisomerase-II expression. Changes in all of these parameters were observed in the doxorubicin-selectants, along with a marked shift in the intracellular distribution of doxorubicin. P-glycoprotein RNA and protein levels were increased 2- to 3-fold in the resistant variants, while total glutathione levels increased 1.4- to 2.1-fold. Treatment with DL-buthionine-[S,R]-sulfoximine, an inhibitor of glutathione biosynthesis, was able to reverse resistance to cis-platinum and melphalan in these variants, but had little effect on doxorubicin resistance. Immunoblot analysis of cell extracts indicated that the level of DNA topoisomerase II (EC 5.99.1.3) in the doxorubicin-resistant LS174T cells was decreased by approximately 50% compared with the parental cell line. Doxorubicin was mainly localized to the cytoplasm in resistant cells, while in the parent line it was mostly found in the nucleus. This constellation of changes suggests that selection with doxorubicin activated several mechanisms of resistance involving drug transport, metabolism, and ability to reach nuclear target sites.
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PMID:Multifactorial resistance in LS174T human colon carcinoma cells selected with doxorubicin. 168 Aug 16

Increased expression of P-glycoprotein (Pgp) has been demonstrated to cause multidrug resistance (MDR) in vitro, and it may be responsible for chemotherapy failure in a number of human cancers. Pgp is a plasma membrane protein thought to function as an energy-dependent drug transporter. From its deduced protein sequence the topology of Pgp was proposed to contain 12 transmembrane domains with six extracellular loops and two cytoplasmic ATP-binding sites. To investigate further the membrane orientation of Pgp, we have expressed a full length cDNA of mouse mdr1, as well as its truncated forms, in a cell-free system supplemented with dog pancreatic microsomal membranes (RM). We determined which domains of the in vitro-synthesized Pgp had transversed the RM membranes by analyzing their resistance to protease digestion and their glycosylation state. To our surprise, this system revealed that a significant portion of in vitro-synthesized Pgp molecules has an additional glycosylated domain in the C-terminal half. Previously, only the first predicted extracellular loop near the N terminus had been thought to be glycosylated. Furthermore, we discovered that Pgp has at least two functional signal recognition particle/docking protein dependent signal sequences, one at the N-terminal half and the other at the C-terminal half. These findings suggest a new topological model for in vitro synthesized P-glycoprotein which may be relevant to its in vivo topology.
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PMID:Study of membrane orientation and glycosylated extracellular loops of mouse P-glycoprotein by in vitro translation. 168 Aug 60

Resistance to multiple antitumour drugs, mostly antibiotics or alkaloids, has been associated with a cellular plasma membrane P-glycoprotein (Pgp), causing energy-dependent transport of drugs out of cells. However, in many common chemotherapy resistant human cancers there is no overexpression of Pgp, which could explain drug resistance. In order to characterise early steps in multidrug resistance we have derived a series of P-glycoprotein-positive (Pgp/+) and P-glycoprotein-negative (Pgp/-) multidrug resistant cell lines, from a human non-small cell lung cancer cell line, SW-1573, by stepwise selection with increasing concentrations of doxorubicin. These cells were exposed to doxorubicin and its fluorescence in nucleus (N) and cytoplasm (C) was quantified with laserscan microscopy and image analysis. The fluorescence N/C ratio in parent cells was 3.8 and decreased both in Pgp/+ and Pgp/- cells with increasing selection pressure to 1.2-2.6 for cells with a resistance factor of 7-17. N/C ratios could be restored partly with verapamil only in Pgp/+ cells. N/C ratio measurements may define a general Pgp-independent type of defense of mammalian cells against certain anticancer agents which may precede Pgp expression in early doxorubicin resistance.
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PMID:Early multidrug resistance, defined by changes in intracellular doxorubicin distribution, independent of P-glycoprotein. 168 87

The human P-glycoprotein gene family contains the mdr1 and the mdr3 gene. The mdr1 P-glycoprotein is over-expressed in multidrug resistant (MDR) tumor cells and is believed to play a role in the elimination of certain cytotoxic drugs used in the chemotherapy of cancer. The mdr3 gene has not been found to be amplified or over-expressed in MDR cells. In this study, gene-specific mdr gene probes were developed for the detection of the gene and the total mRNA level. Southern and Northern hybridization analyses showed that the mdr genes and the mRNA levels were increased 30--40-fold in a MDR human colon cancer cell line. In addition, this MDR cell line had an altered growth rate and morphology and detectable double minute chromosomes.
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PMID:Co-amplification and over-expression of two mdr genes in a multidrug-resistant human colon carcinoma cell line. 168 62

The rat mdr gene family [genes encoding P-glycoprotein (Pgp)] was characterized and the complete sequence of a rat mdr cDNA was determined based on seven independent cDNA clones that correspond to the same gene. The longest of these clones contains a 4.3-kb insert which represents a full-length rat mdr cDNA. The longest open reading frame of this sequence is 3933 bp; the first ATG is at 103 bp, making the deduced protein 1277 amino acids long (141 kDa). This correlates well with previously identified Pgp. The sequence of this gene has a very high, greater than 90%, degree of identity to the mouse mdr1b gene (also known as the mdr1 gene) therefore, we designate it the rat mdr1b gene. Transcription of this gene begins at a single start point 151 nucleotides upstream from the start codon. We show here that the rat gene family is comprised of three members, which is consistent with previous data on other rodent species.
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PMID:Cloning and characterization of a member of the rat multidrug resistance (mdr) gene family. 168 20

The plant diterpene forskolin reverses acquired resistance to doxorubicin in variants of the murine sarcoma S180 cell line. Because forskolin is known to elevate intracellular cAMP levels, investigations were performed to determine whether this reversal of resistance resulted from effects on signal transduction. Two analogues of forskolin, dideoxyforskolin, which does not elevate cAMP, and a water-soluble analogue, were also investigated. Although all three diterpenes elevated levels of either cAMP or protein kinase C, these effects were not consistently associated with reversal of doxorubicin resistance. Likewise, all three diterpenes were capable of displacing [3H]azidopine from P-glycoprotein, but reversal of doxorubicin resistance was observed only with forskolin and dideoxyforskolin, suggesting that binding to P-glycoprotein may be a necessary, but not sufficient, condition for reversing doxorubicin resistance. The hydrophobicity of the compounds appeared to be the single factor most consistently related to reversal of doxorubicin resistance in this cell system, with the hydrophilic compound water-soluble forskolin failing to produce this result, even at concentrations 10-fold higher than effective concentrations of the hydrophobic diterpenes.
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PMID:Reversal of doxorubicin resistance by hydrophobic, but not hydrophilic, forskolins. 168 37

The only function of the transport protein P-glycoprotein (Pgp) that has been identified to date in mammals is its ability to mediate multidrug resistance (MDR) in tumour cell lines. Rodents have three P-glycoprotein (pgp) genes (termed pgp or mdr 1, 2 and 3), and humans have two (mdr1 and mdr3/mdr2). Pgp isoforms differ in their drug transport capabilities: Pgp1 and Pgp2 can mediate MDR, while Pgp3 apparently cannot. The expression of the gene family members is tissue-specific, suggesting that they have unique physiological roles. We report in this paper the complete cDNA sequences for each of the three pgp genes in Chinese hamster. A comparison of the Chinese hamster cDNA sequences with those isolated from human and mouse confirms the identification of the gene family member homologues across these species. An analysis of mammalian Pgp sequences identifies conserved sequences which, it may be speculated, are important for Pgp activity. Previously, three different mdr3 (pgp3 homologous) transcripts, products of alternative splicing, have been reported in humans. Unexpectedly, we find no evidence for a similar alternative splicing event in Chinese hamster: it appears that the expression of pgp3 (mdr3) is different between rodents and humans.
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PMID:Complete cDNA sequences encoding the Chinese hamster P-glycoprotein gene family. 168 79

Considering the possibility to overcome drug resistance by other treatment strategies than chemotherapy we investigated the susceptibility of three independently selected multidrug-resistant sublines of the T-lymphoblastoid leukemic cell line CCRF-CEM to lymphokine-activated killer (LAK) cells. We found that two of the multidrug-resistant sublines were significantly less susceptible targets to LAK cells. A third one, however, was as susceptible as the parental CCRF-CEM cell line. Moreover, a multidrug-resistant subline that reverted to an almost drug-sensitive phenotype was observed to be also revertant for resistance against LAK cells. We found an inverse relationship between the expression of the mdr1 gene (P-glycoprotein) and the susceptibility to LAK cells. Verapamil, a calcium channel blocker, while increasing the drug sensitivity of a multidrug-resistant subline, did not induce a reversal of the suppression of LAK susceptibility. The possibility of enhanced resistance to LAK cells of multidrug-resistant cells should be taken into account when one is looking for therapy strategies to overcome multidrug resistance.
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PMID:Susceptibility of multidrug-resistant human leukemia cell lines to human interleukin 2-activated killer cells. 169 43

The overexpression of P-glycoprotein (mdr1) induces the phenotype of multidrug resistance to many chemically unrelated drugs. Absolute mdr1 mRNA levels in tissues, neoplasms and cell lines from various rodents and man were estimated by primer-directed reverse transcription (RT) and subsequent polymerase chain reaction (PCR) with 32P-labeled nucleotide. Aliquots taken during PCR were analyzed for product formation by two-dimensional densitometry of autoradiograms of separated cDNA on dried agarose gels. The kinetic RT/PCR assay was calibrated for the range of 10(-3) to 10(3) amol of specific mRNA by utilizing mdr1 RNA transcribed from a full-length cDNA as the external standard and aldolase mRNA as the internal standard in order to assess RNA degradation of the specimen. For various cDNA fragments differing between 200 and 600 bp in size, the yield of cDNA during logarithmic growth increased by 1.78 +/- 0.02 per cycle. Hence, the sensitive and reproducible quantitation of transcript is feasible by monitoring RT/PCR kinetics without the need for any competing cRNA or cDNA fragment provided that a high-performance thermal cycler is employed for PCR.
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PMID:Quantitation of mRNA by the kinetic polymerase chain reaction assay: a tool for monitoring P-glycoprotein gene expression. 171 72

Stable acquired resistance to etoposide (VP-16) or teniposide (VM-26) in HCT116 human colon carcinoma cells and A549 human lung adenocarcinoma cells, was previously obtained by weekly 1-h exposures to either drug (B. H. Long, Natl. Cancer Inst. Monogr., 4: 123-127, 1987). The purpose of this study was to identify possible mechanisms of resistance present in these cells by using human mdr1 and topoisomerase II DNA probes, antibodies to these gene products, and P4 phage unknotting assay for topoisomerase II activities. HCT116(VP)35 cells were 9-, 7-, and 6-fold resistant to VP-16, VM-26, and Adriamycin, respectively, and showed no cross-resistance to colchicine and actinomycin D. These cells had no differences in mdr1 gene, mdr1 mRNA, or P-glycoprotein levels but displayed decreased levels of topoisomerase II mRNA and enzyme activity without any alteration of drug sensitivity displayed by the enzyme. HCT116(VM)34 cells were 5-, 7-, and 21-fold resistant to VP-16, VM-26, and Adriamycin; were cross-resistant to colchicine (7-fold) and actinomycin D (18-fold); and possessed a 9-fold increase in mdr1 mRNA and increased P-glycoprotein without evidence of mdr1 gene amplification. No alterations in topoisomerase II gene or mRNA levels, enzyme activity, or drug sensitivity were observed. A549(VP)28 and A549(VM)28 cells were 8-fold resistant to VP-16 and VM-26 and 3-fold resistant to Adriamycin. Both lines were not cross-resistant to colchicine or actinomycin D but were hypersensitive to cis-platinum. No alterations in mdr1 gene, mdr1 mRNA, or P-glycoprotein levels, but lower topoisomerase II mRNA levels and decreased enzyme activities, were observed. Of the four acquired resistant cell lines, resistance is likely related to elevated mdr1 expression in one line and to decreased topoisomerase II expression in the other three lines.
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PMID:Mechanisms of resistance to etoposide and teniposide in acquired resistant human colon and lung carcinoma cell lines. 171 44

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