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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 certain percentage of cancers are primarily or subsequently resistant to chemetherapeutic agents. Several biological mechanisms are implicated in this phenomenon, including multidrug resistance/
P-glycoprotein
(mdr1/
P-gp
), resistance related proteins (P-95 and P-110), multidrug resistance associated protein (P-190), iso-enzymes of gluthatione S-transferase, topo-isomerases, glutathione peroxidase and others. mdr1/
P-gp
overexpression has been studied in many types of cancer. It represents an inducible, transferable and phylogenetically ancestral biological system. It is expressed at the surface of the cell, and in that way, it participates to several normal functions. The recent introduction of modulators/revertants of mdr1/
P-gp
may change some concepts in using chemotherapy for cancers. The first step is represented by a better knowledge of the cancers which overexpressed mdr1/
P-gp
, with determination of the best biological technique, including the gold standards. This allows the clinician to clarify the best impact of such a therapeutic way and to define the criteria of modulator selection. Such criteria includes in vitro selection using a panel of sensitive/resistant cell lines, in vivo tests including transgenic mice, nude or SCID mice, and toxicological studies. Choice of modulated drug is easier and depends on the biological target. For mdr1/
P-gp
, major drugs included doxorubicin and vinca-alkaloids. Due to the fact that some modulators have an influence on the pharmacokinetic parameters of chemotherapeutic drugs, it is important to verify such parameters. The last choice concerns the strategy of drug development with three levels of action: 1) modulation of clinical chemoresistance, intrinsic or acquired one; 2) modulation of biological resistance; 3) leading to the prevention of the amplification of low levels of chemoresistance. A new therapeutic way is born, which takes care of a dynamic aspect of the tumor, and necessitates a new use of chemotherapy.
...
PMID:[Modulation of chemoresistance: methodology of therapeutic trials]. 873 92
In this preliminary study, we report the cloning of the human MDR1 cDNA into a prokaryotic expression vector and the consequent functional expression of heterologous
P-glycoprotein
in Escherichia coli. We demonstrate increased resistance to the
P-glycoprotein
substrates TPA+, TPP+, and puromycin; reduced accumulation of TPP+ and tetracycline by resistant cells; and the expression of a full-length immunoreactive
P-glycoprotein
molecule in the membrane fraction of resistant cells. The obvious structural and functional similarities of
P-gp
to prokaryotic ABC transporters and other efflux transporters argues for a more complete study of the consequences pertaining to the expression of human
P-glycoprotein
in E. coli.
...
PMID:Functional expression of the human MDR1 gene in Escherichia coli. 880 55
It is difficult to administer an effective dose of cyclosporin A (CsA), a potent inhibitor of
P-glycoprotein
, to prevent multiple drug resistance due to its side effect. We herein evaluated the efficacy of concomitant use of this agent and complete hepatic venous isolation and charcoal hemoperfusion (HVI.CHP). Dogs were divided into two groups; group I (n = 4), intraarterial infusion of only adriamycin (ADM) and group II (n = 4), intraarterial infusion of CsA and ADM. In both groups, ADM was intraarterially administered for 10 minutes under HVI.CHP. In addition, in group II, CsA infusion (0.3 mg/min.kg) was initiated 20 min prior to the start of ADM infusion and maintained for 30 min. The AUC (micrograms.min/ml) of ADM were 21.2 +/- 8.6 (mean +/- SD) and 28.4 +/- 10.3 in groups I and II, respectively, at prefilter (hepatic venous level) and 8.1 +/- 4.6 and 4.8 +/- 3.8, respectively, at postfilter, showing an effective drug elimination in both groups. The Cmax (micrograms/ml) were 14.1 +/- 2.2 at prefilter, 2.4 +/- 0.5 at postfilter, and 3.4 +/- 1.2 in systemic level. These results indicated that HVI.CHP allowed the high-dose CsA infusion required for
P-gp
inhibition in the liver and could reduce extraregional CsA leakage.
...
PMID:[Evaluation of concomitant use of cyclosporin and percutaneous isolated liver perfusion under complete venous isolation and charcoal hemoperfusion]. 885 65
The sensitivity of tumor cells to lysis by natural killer (NK) and interleukin-2 (IL-2)-activated killer (LAK) cells was studied in three ovarian carcinoma cell lines (2780.9S, SKOV-3, and CHOAUXB1), four multidrug-resistant (MDR) variants, and a melphalan-resistant line. The antitumor activity of LAK cells was evaluated both by 51Cr release and by conjugate formation assays. Four of four
P-glycoprotein
-positive (P-gp+) MDR ovarian carcinoma cell line variants were lysed by human LAK cells to a greater extent than were their drug-sensitive counterparts. In contrast, a melphalan-resistant ovarian carcinoma cell line that does not overexpress
P-gp
(P-gp-) did not exhibit an increased susceptibility to LAK cells relative to its parental cell line. Two of the four P-gp+ MDR ovarian carcinoma cell line variants were tested for human NK cell susceptibility and this was found to be unchanged or decreased. The P-gp+ MDR ovarian carcinoma cell line 2780.AD645 showed a higher frequency of tumor cell binding to LAK cells than did the drug-sensitive parental line. A monoclonal antibody (mAb) against a cell surface epitope of
P-gp
, MRK16, used at 1 microgram/ml, enhanced the LAK susceptibility of P-gp+ MDR ovarian carcinoma cell lines. However, when incubation with 10 micrograms/ml MRK-16 antibody (Ab) was followed by 12.5 micrograms/ml F(ab')2 goat anti-mouse (GAM) immunoglobulin (Ig), the increased LAK susceptibility of P-gp+ MDR cell lines was inhibited. These data strongly suggest that
P-glycoprotein
-positive MDR ovarian carcinoma cells not only are targets for LAK cells, but are more sensitive than their drug-sensitive parental lines. This is in contrast to their susceptibility to NK cells, which is low to start with and remains unchanged or even decreased in MDR cells. It is postulated here that
P-gp
or associated changes result in a greater frequency of effector-target cell binding, leading to increased LAK cell cytotoxicity.
...
PMID:P-glycoprotein-mediated multidrug resistance and lymphokine-activated killer cell susceptibility in ovarian carcinoma. 894 80
Peripheral blood samples from 18 patients with chronic lymphocytic leukemias (CLL) who were either untreated but who were later sensitive to chlorambucil (CLL S) or resistant to a combination containing doxorubicin, vincristine, cyclophosphamide and prednisone (CLL R) were studied for glutathione system,
P-glycoprotein
, PCNA and topoisomerase II expression.
P-glycoprotein
expression detected by an immunocytochemical technique using MRK 16 antibody was present at the same level in CLL S and CLL R. The percentage of cells positive for
P-gp
was below 5% in all samples tested. Topoisomerase IIalpha level was quantified by Western blot analysis. None of the 18 CLL samples had detectable topoisomerase IIalpha protein. In addition, 12 CLL were tested for PCNA staining and no samples had more than 1% of positive cells at immunocytochemical detection indicating that CLL cells were not engaged in the cell cycle. Some differences were found between CLL S and CLL R in the glutathione system. Glutathione concentration (GSH) and GST activity was the same in CLL S and CLL R. The glutathione-S-transferase (GST) isoenzyme profile was different in the two CLL groups. The mean GST-pi and GST-alpha quantitation were twice as high as in CLL R compared to CLL S, but this difference did not reach statistical significance because of large variations between CLL samples. A significant correlation was observed between GST-pi expression and GST activity using CDNB as the substrate. GST-mu was detected in only one of seven CLL before therapy and in six of 11 resistant to chemotherapy. No correlation was found between
P-glycoprotein
expression, GST activity and the different GST isoenzymes studied. These results suggest that the glutathione system could play a role in the resistance of anticancer agents in chronic lymphocytic leukemia. The role of the other drug resistance mechanisms (
P-glycoprotein
and topoisomerase IIalpha) seems to be of limited importance.
...
PMID:Drug resistance mechanisms in chronic lymphocytic leukemia. 894 35
Resistance to anti-tumor drugs can be mediated by overexpression of the
multidrug resistance 1
(
MDR1
) protein (
P-glycoprotein
). In three
MDR1
-transfected cell lines (Gill et al. Cell 71: 23-32, 1992; Altenberg et al. Cancer Res. 54: 618-622, 1994), a hypotonic stress-induced Cl- current has been demonstrated that can be inhibited by
MDR1
substrates and Cl- channel blockers. We tested the hypothesis that
MDR1
expression confers additional Cl- conductance by measuring regulatory volume decrease (RVD) in four pairs of isogenic cell lines and 36Cl efflux in two cell lines with and without hypotonic stress. The kinetics of RVD and response to Cl- channel blockers were indistinguishable in MDR and parental cells. Additionally, no significant difference was seen between 36Cl efflux rate constants under hypotonic conditions between NIH/3T3 and L1210 parental and MDR cells. We conclude that, in intact cells, the expression of
MDR1
does not alter the rate of volume regulation or the rate 36Cl efflux under hypotonic conditions between parental and MDR cells.
...
PMID:MDR1/P-glycoprotein function. II. Effect of hypotonicity and inhibitors on Cl- efflux and volume regulation. 896 47
Solitary stroma-invading tumor cells expressing the ATP-binding cassette transporter
P-glycoprotein
have been reported to be associated with a significantly higher incidence of vessel invasion and lymph node metastases. In contrast to
P-gp
-mediated multidrug resistance (MDR) which has become well characterized over the last decade, little is known about further morphological and functional alterations in drug-resistant tumor cells. Binding of malignant cells to components of the extracellular matrix mediated by beta 1 integrins has been suggested to play a substantial role in the metastatic cascade. We studied alterations of beta 1 integrin expression and in vitro adhesiveness to extracellular matrix proteins of the human renal carcinoma line Caki-1 in comparison to the vinblastine resistant sublines Caki-1/V1 and Caki-1/V10 (cultured in the presence of 1 ng/ml and 10 ng/ml vinblastine, respectively). Both VLA-1 and VLA-2 receptors were acquired by the Caki-1/V10 subline, whereas untreated and Caki-1/VI cells lacked surface expression of these antigens. VLA-6 was found to be decreased in the vinblastine-resistant sublines. Attachment of drug-resistant Caki-1/V1 and Caki-1/V10 cells to collagen type I was significantly increased when compared to parental cells (p < or = 0.005). Significant differences in the attachment to type IV collagen were observed between Caki-1/V10 and untreated cells (p < or = 0.045). Both Caki-1/V1 and Caki-1/ V10 cells exhibited increased adhesion to fibronectin when compared to cells of the untreated line (p < or = 0.04). Whether an aberrant expression of beta 1 integrin receptors in resistant cells in combination with altered tumor cell adhesiveness is caused by MDR induction or whether it is an epiphenomenon of cytotoxic stress is unknown. Future studies will be needed to characterize the clinical relevance of MDR-associated changes in tumor cells.
...
PMID:Exposure to vinblastine modulates beta 1 integrin expression and in vitro binding to extracellular matrix molecules in a human renal carcinoma cell line. 903 Feb 41
Resistant cancer cells have been shown to overexpress a 170-kd membrane glycoprotein called
P-glycoprotein
.
P-glycoprotein
, a product of the
multidrug resistance 1
gene, functions as an energy-dependent efflux pump that decreases intracellular drug concentrations. A variety of nonchemotherapeutic agents have been shown to inhibit
P-glycoprotein
-dependent drug efflux including cyclosporin. PSC 833 is a nonimmunosuppressive derivative of cyclosporin D with the ability to reverse multidrug resistance because of
P-glycoprotein
overexpression in vitro. As part of early clinical development of PSC 833, the authors investigated the bioavailability of an oral formulation of PSC 833. PSC 833 (3 mg/kg) was administered as a 2-hour intravenous infusion on day 1 of the treatment cycle. Serial blood samples for the determination of PSC 833 whole blood concentrations were obtained after both the intravenous and oral doses. On day 5 of the study, patients received a single oral dose (9 mg/kg) of PSC 833. A total of 14 patients were treated. The intravenous data were best described by a two-compartment open model. The oral data also were described using a two-compartment model, with oral absorption incorporating a lag time to account for possible delays in absorption. There was large intra- and interpatient variability in the pharmacokinetics of PSC 833 in these patients. The absolute bioavailability of PSC 833 was 34% but ranged from 3% to 58% of the administered dose. The clearance (CI) of PSC 833, in general, was consistent between the two dose forms administered. The pharmacokinetic behavior of PSC 833 appears to be similar to that of cyclosporine.
...
PMID:Initial pharmacokinetics and bioavailability of PSC 833, a P-glycoprotein antagonist. 905 38
In the 45 years since Burchenal's observation of chemotherapeutic drug resistance in tumor cells, many investigators have studied the molecular basis of tumor drug resistance and the phenomenon of tumor multidrug resistance (tumor MDR). Examples of MDR in microorganisms have also become topics of intensive study (e.g., Plasmodium falciparum MDR and various types of bacterial MDR) and these emerging fields have, in some cases, borrowed language, techniques, and theories from the tumor MDR field. Serendipitously, the cloning of MDR genes overexpressed in MDR tumor cells has led to elucidation of a large family of membrane proteins [the ATP-binding cassette (ABC) proteins], an important subset of which confer drug resistance in many different cells and microorganisms. In trying to decipher how ABC proteins confer various forms of drug resistance, studies on the structure and function of both murine and human MDR1 protein (also called
P-glycoprotein
or
P-gp
) have often led the way. Although various theories of
P-gp
function have become popular, there is still no precise molecular-level description for how
P-gp
overexpression lowers intracellular accumulation of chemotherapeutic drugs. In recent years, controversy has developed over whether the protein protects cells by translocating drugs directly (as some type of drug pump) or indirectly (through modulating biophysical parameters of the cell). In this ongoing debate over
P-gp
function, detailed consideration of biophysical issues is critical but has often been neglected in considering cell biological and pharmacological issues. In particular,
P-gp
overexpression also changes plasma membrane electrical potential (delta psi zero) and intracellular pH (pHi), and these changes will greatly affect the cellular flux of a large number of compounds to which
P-gp
overexpression confers resistance. In this chapter, we highlight these biophysical issues and describe how delta psi zero and pHi may in fact be responsible for many MDR-related phenomena that have often been hypothesized to be due to direct drug translocation (e.g., drug pumping) by
P-gp
.
...
PMID:Biophysical aspects of P-glycoprotein-mediated multidrug resistance. 906 27
The ABC superfamily of transporters includes the mammalian
P-glycoprotein
family (Class I and Class II P-gps), the multidrug resistance-associated protein (MRP), the Pgh-1 product of Plasmodium falciparum gene pfmdr1, all of which are associated with cellular pleiotropic drug resistance phenomena. STE6, the yeast transporter for the farnesylated peptide pheromone a, is also a member of this family. Structural similarities in this family translate into functional homology as expression of mouse Mdr3S (
P-gp
), P. falciparum Pgh-1, and human MRP partially restore mating in a sterile yeast mutant lacking a functional STE6 gene. The demonstration that Class II P-gps function as phosphatidylcholine (PC) translocators raise the possibility that other ABC transporters may also interact with physiological lipids. We report the identification of the synthetic lipid and PC analog ET-18-OCH3 (edelfosine) as a substrate for not only Class II
P-gp
but also for Class I P-gps and surprisingly for the other ABC transporters MRP, Pgh-1, and STE6. Expression of these proteins in the yeast Saccharomyces cerevisiae JPY201 was found to confer cellular resistance to cytotoxic concentrations of this lipid by a factor of 4-20-fold in a growth inhibition assay. The noted activity of ABC transporters toward this synthetic lipid was specific as a mutant variant of Mdr3 (Mdr3F) with reduced activity could not convey cellular resistance to ET-18-OCH3. ET-18-OCH3 was also found capable of blocking a-peptide pheromone transport and STE6 complementation by these ABC proteins. The inhibitory effect of ET-18-OCH3 on cell growth and a-factor transport could be abrogated by incubation with the lipid acceptor protein BSA or by enzymatic cleavage by microsomal alkylglycerol mono-oxygenase (MAMO). MAMO and BSA reversal of the ether lipid effect was only seen in the presence of a functional transporter. These results suggest that the group of cytotoxic synthetic PC analogs studied reveal possible structural and functional aspects common to the ABC transporters tested. Furthermore, the studies with BSA and MAMO suggest that the mechanism of transport of ET-18-OCH3 by these ABC transporters may be related to the flippase mechanism of PC transport by Mdr2.
...
PMID:Functional interactions between synthetic alkyl phospholipids and the ABC transporters P-glycoprotein, Ste-6, MRP, and Pgh 1. 1009 17
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