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)

In previous work [Luz et al. (1994) Biochemistry 33, 7239-7249; Roepe et al. (1994) Biochemistry 33, 11008-11015] we measured changes in Cl- and HCO3--dependent pHi regulation for LR73 Chinese hamster ovary fibroblasts overexpressing mu MDR 1 protein. However, only one clonal cell line overexpressing the protein but not previously exposed to chemotherapeutic drug (i.e., a "true" transfectant) was examined, since very few MDR cell lines of this nature have been constructed. Recently [Hoffman et al. (1996) J. Gen. Physiol. 108, 295-313] we derived a series of true LR73/hu MDR 1 transfectants that are valuable for defining the MDR phenotype mediated by MDR protein alone, without the additional complexities introduced by exposing cells to chemotherapeutic drugs. Several independently derived clones from these and additional transfection experiments exhibit expression of MDR protein that is higher than that found in other true transfectants, and that is similar to the highest level of overexpression yet recorded for drug selected MDR cells. We examined altered Cl--dependent pHi regulation for these clones using improved single-cell photometry (SCP) techniques. Short-term isotonic Cl- substitution experiments performed in the presence of CO2/HCO3- reveal that mild overexpression of hu MDR 1 protein alters anion exchange (Cl-/HCO3- exchange or AE) for LR73 cells, as expected on the basis of previous work [Luz et al. (1994) Biochemistry 33, 7239-7249]. Interestingly, we now find that several independently selected high-level MDR 1 overexpressing clones acidify quite extensively upon isotonic exchange of Cl- and then rapidly alkalinize upon restoring normal [Cl-]. These data suggest that MDR protein may effectively compete against AE. The MDR protein effect is not dependent on HCO3-/CO2 or K+, is partially inhibited by verapamil, is completely inhibited by substituting K+ or N-methylglucamine (NMG+) for Na+ in the SCP perfusate but is not affected by 100 microM levels of amiloride, bumetanide, chlorothiazide, or stilbene. ATP depletion inhibits the MDR 1 effect. We are unable to restore normal AE activity for the MDR clones via manipulation of Cl- or HCO3- gradients. We thus suggest that MDR protein overexpression provides a novel Na+- and Cl--dependent pathway for transmembrane H+ transport. From analysis of ion dependency and inhibitor sensitivities, we conclude the transport is not via altered regulation of any known K+/H+, Na+/H+, or Cl-/HCO3- antiporters, Na+:K+:2Cl-, Na+:K+:2HCO3-, K+:HCO3-, or Na+:HCO3- co-transporters, or any combination of these. Thus, it appears to represent a novel ATP and Na+-dependent Cl-/H+ antiport process that (1) may be directly mediated by the MDR protein, (2) may represent the modulation of one or more currently unidentified ion transport proteins by MDR protein, (3) may be due to some combination of direct ion transport and regulation of ion transport, or (4) may represent unusual passive H+ movement in response to a novel Cl--dependent electrical perturbation that occurs during our Cl- substitution protocol. The results have important implications for understanding drug resistance mediated by MDR 1 overexpression, as well as the physiologic function of endogenously expressed MDR protein.
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PMID:Analysis of ion transport perturbations caused by hu MDR 1 protein overexpression. 928 58

Several laboratories have reported that overexpression of the multidrug resistance (MDR) protein is associated with intracellular alkalinization, and several investigators have reported that cells induced to undergo programmed cell death (apoptosis) acidify quite significantly. Because it is difficult to fully explain the resistance to apoptosis-inducing chemotherapeutic drugs that is exhibited by MDR tumor cells solely via altered drug transport alone [Hoffman et al. (1996) J. Gen. Physiol. 108, 295-313], we have investigated whether overexpression of the hu MDR 1 protein alters progression of the apoptotic cascade. LR73 fibroblasts induced to undergo apoptosis either via treatment with the chemotherapeutic drug colchicine or by serum withdrawal exhibit cellular volume changes, intracellular acidification, nuclear condensation, and chromosomal digestion ("ladder formation"), characteristic of apoptosis, in a temporally well-defined pattern. However, multidrug resistant LR73/20E or LR73/27 hu MDR 1 transfectants recently created in our laboratory without selection on chemotherapeutic drug are significantly delayed in the onset of apoptosis as defined by the above criteria, regardless of whether apoptosis is induced by colchicine treatment or by serum withdrawal. Thus, the delay cannot simply be due to the well-known ability of MDR protein overexpression to lower chemotherapeutic drug accumulation in MDR cells. LR73/27V500 "selectants", exhibiting similar levels of MDR protein overexpression but higher multidrug resistance due to selection with the chemotherapeutic drug vincristine, exhibit a slightly longer delay in the progression of apoptosis. Normal apoptotic cascade kinetics are partially restored by pre-treatment of the MDR cells with the MDR protein inhibitor verapamil. Untransfected LR73 cells not expressing MDR protein but elevated in pHi via manipulation of CO2/HCO3- as described [Hoffman et al. (1996) J. Gen. Physiol. 108, 295-313] are inhibited in DNA ladder formation, similar to LR73/hu MDR 1 transfectants. These results uncover an additional mechanism whereby MDR protein overexpression may promote the survival of tumor cells and further support the notion that in some systems intracellular acidification may be either causal or permissive for proper progression of the apoptotic cascade.
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PMID:Human MDR 1 protein overexpression delays the apoptotic cascade in Chinese hamster ovary fibroblasts. 928 59

1. P-glycoprotein (P-gp) is a transmembrane protein involved in ATP-dependent efflux of various structurally unrelated anticancer drugs. Its overexpression in cancer cells decreases intracellular drug concentrations and, thus, confers a multidrug resistance phenotype. 2. P-gp is encoded by MDR genes, which constitute a small gene family comprising two genes in humans and three genes in rodents. Only the MDR1 gene in humans and mdr1 and mdr3 genes in rodents have been demonstrated to be involved in drug resistance. 3. P-gp encoded by the human MDR1 gene is a phosphorylated and glycosylated protein 1289 amino acids long, and consists of 2 halves that share a high degree of similarity. 4. A wide variety of cancers have been shown to express P-gp, including solid tumors and hematological malignancies. This P-gp positivity can be evidenced at the time of diagnosis prior to chemotherapy or at relapse after treatment, and has been correlated with treatment failure and poor prognosis in several types of cancer. In addition, P-gp is also expressed by some normal tissues, such as liver and kidney. 5. P-gp expression is regulated by various factors, including xenobiotics and hormones. 6. P-gp-mediated multidrug resistance can be reversed by various unrelated compounds called chemosensitizers or reversing agents. These drugs act through inhibition of P-gp function and have entered clinical trials.
Gen Pharmacol 1996 Dec
PMID:The P-glycoprotein multidrug transporter. 930 97

Phosphorylation of P-glycoprotein (PGP) by some protein kinases may play an important role in the regulation of its drug transport activity, and may also be important for the development of multidrug resistance (MDR) phenotype. In the present study we investigated the expression of three groups of mitogen-activated protein kinases (MAPKs). The expression of ERKs, SAPK/JNKs and p38-MAPK was studied at the protein level in sensitive (L1210) and multidrug resistant (L1210/VCR) cells. The expression of ERKs in multidrug resistant cells did not differ from those observed in parental sensitive cells. On the other hand, the development of multidrug resistance phenotype in L1210/VCR cells was associated with increased expression of cytosolic p38-MAPK and also proteins of 90 and 130 kDa that react with antibody specific for SAPK/JNKs. The expression of the proteins mentioned was stimulated above all in conditions when vincristine was present in cultivation medium and the stimulation of transport activity of PGP was necessary for the cell survival. The development of multidrug resistance phenotype in L1210/VCR cells was not associated with significant changes in expression of several heat-shock proteins (hsp25, hsp60, hsp70, hsp90). The levels of these proteins were comparable in sensitive L1210 and resistant L1210/VCR cells, and vincristine did not influence the expression of heat-shock proteins in resistant cells.
Gen Physiol Biophys 1999 Mar
PMID:Differential expression of regulatory proteins in L1210/VCR cells with multidrug resistance mediated by P-glycoprotein. 1037 20

This paper describes the characterization of atrC and atrD (ABC transporters C and D), two novel ABC transporter-encoding genes from the filamentous fungus Aspergillus nidulans, and provides evidence for the involvement of atrD in multidrug transport and antibiotic production. BLAST analysis of the deduced amino acid sequences of AtrCp and AtrDp reveals high homology to ABC transporter proteins of the P-glycoprotein cluster. AtrDp shows a particularly high degree of identity to the amino acid sequence of Afu Mdr1p, a previously characterized ABC transporter from the human pathogen A. fumigatus. Northern analysis demonstrates an increase in transcript levels of atrC and atrD in fungal germlings upon treatment with natural toxic compounds and xenobiotics. The atrC gene has a high constitutive level of expression relative to attrD, which suggests its involvement in a metabolic function. Single knock-out mutants for atrC and atrD were generated by gene replacement using pyrG from A. oryzae as a selectable marker. DeltatrD mutants display a hypersensitive phenotype to compounds such as cycloheximide, the cyclosporin derivative PSC 833, nigericin and valinomycin, indicating that AtrDp is involved in protection against cytotoxic compounds. Energy-dependent efflux of the azole-related fungicide fenarimol is inhibited by substrates of AtrDp (e.g. PSC 833, nigericin and valinomycin), suggesting that AtrDp plays a role in efflux of this fungicide. Most interestingly, (delta)atrD mutants display a decrease in penicillin production, measured indirectly as antimicrobial activity against Micrococcus luteus. These results suggest that ABC transporters may be involved in secretion of penicillin from fungal cells.
Mol Gen Genet 2000 Jul
PMID:The role of ABC transporters from Aspergillus nidulans in protection against cytotoxic agents and in antibiotic production. 1095 82

Multidrug resistance (MDR) of neoplastic cells, i.e. resistance towards large groups of unrelated drugs, represents the phenomenon that dramatically depresses the effectiveness of cancer chemotherapy. Membrane transport of ATPases from ABC superfamily plays an important role in MDR. In the present paper we are aiming to compare two members of this family: P-glycoprotein (PGP products of mdr genes) and multidrug resistance-associated protein (MRP, products of mrp genes) and their impact for MDR of neoplastic cells.
Gen Physiol Biophys 2001 Sep
PMID:Drug transporters and their role in multidrug resistance of neoplastic cells. 1176 14

Effect of specific inhibitors of extracellular-signal regulated protein kinase (ERK) pathway, PD98059 and U0126, on P-glycoprotein (Pgp)-mediated vincristine resistance of L1210/VCR cells was investigated. Both test inhibitors significantly reduced the survival of L1210/VCR cells in the presence of vincristine and this was associated with a decrease of LC50 values to vincristine from 2.65+/-0.43 to 0.67+/-0.28 micromol/l and to 0.69+/-0.09 micromol/l after treatment with 50 micromol/l PD98059 and 25 micromol/l UO126, respectively. Moreover, the effects of PD98059 are connected also with an increased intracellular accumulation of radiolabeled vincristine in resistant L1210/VCR cells in concentration dependent manner. The results of this study demonstrate that inhibitors of ERK signaling pathway are reversal agents of vincristine resistance in L1210/VCR cells. The precise mechanism of PD98059 and U0126 action in modulation of MDR is not resolved yet, but the role of ERK-mediated phosphorylation cascade could be considered.
Gen Physiol Biophys 2001 Dec
PMID:Reversal effect of specific inhibitors of extracellular-signal regulated protein kinase pathway on P-glycoprotein mediated vincristine resistance of L1210 cells. 1198 53

Previously we have found that pentoxifylline (PTX), but not caffeine, theophylline, or 1-methyl-3-isobutylxanthine, affects sensitivity of L1210/VCR cells, a line with multidrug resistance mediated by P-glycoprotein (P-gp) to vincristine (VCR) and doxorubicine. Comparison of chemical structure of PTX with other above xanthines has revealed only one marked difference. PTX contains extended aliphatic chain containing reactive electrophilic carbonyl group in the position N1. The investigation of possibility that this group is crucial for PTX-induced MDR reversal represents the aim of the current paper. To prove this hypothesis, we used the new synthesized PTX derivative in which the carbonyl group is modified by a substance containing amino-group and the product of reaction is the respective Schiff base (SB). Successful reaction was observed when PTX reacted with 3,5-diaminobenzenesulfonyl acid (DABS). The product of reaction of DABS with carbonyl group of aliphatic part of PTX was proved using NMR and IR spectroscopy. We found that the resulting PTX derivative PTX-SB revealed higher cytotoxicity on both sensitive L1210 and multidrug resistant L1210/VCR cells than PTX. Moreover, PTX-SB exerts more pronounced MDR reversal effect on L1210/VCR cells than PTX. These results indicate that electrophilic carbonyl group on aliphatic chain located in position N1 of PTX is not essential for MDR reversal effects of PTX.
Gen Physiol Biophys 2002 Dec
PMID:Carbonyl group of aliphatic side chain of pentoxifylline does not play role for P-glycoprotein antagonizing effect of pentoxifylline. 1269 18

Multidrug resistance (MDR) phenotype of L1210/VCR cell line, acquired by selection for vincristine (VCR), is predominantly mediated by P-glycoprotein (Pgp). Calcein/AM (Cal) was recently described as a fluorescent substrate for Pgp and may be used for measuring of transport activity of Pgp. Expression of Pgp in the cells prevents them to be loaded with the fluorescent marker. To detect the activity of Pgp, verapamil (Ver) or cyclosporine A (CsA) has to be used as Pgp inhibitors. Multidrug resistance protein (MRP), another drug efflux pump, may be inhibited by probenecid (Pro), i.e, the inhibitor of a wide variety of anion transporters. Ver, but not Pro, is able to induce the loading of L1210/CR cells by Cal that is measurable by fluorescence-activated cell sorter (FACS). Another dye, fluo-3/AM (F-3), has a similar behaviour like Cal. Using confocal microscopy we have proved that L1210/VCR cells, in contrast to parental sensitive cells, are not loaded with F-3. Marking of cells with the dye can be achieved using inhibitors of Pgp like Ver or CsA but not by Pro. These results indicate that F-3 is usable for detection of Pgp function in various MDR tissue cells.
Gen Physiol Biophys 2004 Sep
PMID:Functional fluo-3/AM assay on P-glycoprotein transport activity in L1210/VCR cells by confocal microscopy. 1563 23

The inhibitory interaction of grapefruit juice and CYP3A4 medication metabolism was discovered in 1989. CYP3A4 enzymes are responsible for the metabolism of more than 60% of orally-administered drugs. Grapefruit components inhibit CYP3A4 drug oxidation and P-glycoprotein transportation, allowing more systemic drug bioavailability. This inhibitory interaction should be kept in mind when prescribing drugs that are metabolized by CYP3A4, such as orally administered midazolam, triazolam, and diazepam.
Gen Dent
PMID:Understanding the grapefruit-drug interaction. 1615 98

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