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Drug
Enzyme
Compound
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Target Concepts:
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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 multidrug resistant (MDR) human non-small cell lung carcinoma cell line, SW-1573/2R120 (2R120), not containing the drug-efflux pump
P-glycoprotein
(PgP), has been studied for the transport of daunorubicin (DN) across the cellular plasma membrane. Earlier, reduced initial DN-uptake rates and lower cellular DN steady-state concentrations were found for this cell line, when it was compared to the SW-1573 wild-type cell line. This finding was an indication for the presence of another cellular drug-efflux pump. However, we found similar DN-efflux rates in drug-free medium for the two cell lines, while for Pgp-containing MDR SW-1573/2R160 (2R160) cells the efflux rate was increased compared to wild-type cells. In order to elucidate differences in DN transport across the cellular plasma membrane, the association of DN with plasma membranes of intact cells was investigated, using fluorescence-resonance-energy transfer. For this purpose, the plasma-membrane probe 1-(4-trimethyl-ammoniumphenyl)-6-phenyl-1,3,5-hexatriene (
TMA
-DPH) was chosen since, because of the overlap between the emission spectrum of
TMA
-DPH and the excitation spectrum of DN, transfer of energy can be achieved from
TMA
-DPH to DN. Cells were loaded with
TMA
-DPH and, after addition of 10 microM DN, the
TMA
-DPH fluorescence was quenched. Rapid initial quenching proved to be similar in the MDR 2R160 (Pgp-containing) cells and in the SW-1573 wild-type cells (21 +/- 1% and 20 +/- 2%, respectively), but was less in the MDR 2R120 cells not containing Pgp (14 +/- 1%). This finding correlated with a lowered amount of DN dissolved in the plasma membrane of 2R120 cells. We interpret these data to be the result of a 'vacuum-cleaner' pumping system other than Pgp which removes DN from a plasma membrane compartment and equilibrates relatively slowly with the interior of the cell.
...
PMID:A plasma membrane 'vacuum cleaner' for daunorubicin in non-P-glycoprotein multidrug-resistant SW-1573 human non-small cell lung carcinoma cells. A study using fluorescence resonance energy transfer. 828 39
Lactococcus lactis possesses an ATP-dependent drug extrusion system which shares functional properties with the mammalian multidrug resistance (MDR) transporter
P-glycoprotein
. One of the intriguing aspects of both transporters is their ability to interact with a broad range of structurally unrelated amphiphilic compounds. It has been suggested that
P-glycoprotein
removes drugs directly from the membrane. Evidence is presented that this model is correct for the lactococcal multidrug transporter through studies of the extrusion mechanism of BCECF-AM and cationic diphenylhexatriene (DPH) derivatives from the membrane. The non-fluorescent probe BCECF-AM can be converted intracellularly into its fluorescent derivative, BCECF, by non-specific esterase activities. The development of fluorescence was decreased upon energization of the cells. These and kinetic studies showed that BCECF-AM is actively extruded from the membrane before it can be hydrolysed intracellularly. The increase in fluorescence intensity due to the distribution of
TMA
-DPH into the phospholipid bilayer is a biphasic process. This behaviour reflects the fast entry of
TMA
-DPH into the outer leaflet followed by a slower transbilayer movement to the inner leaflet of the membrane. The initial rate of
TMA
-DPH extrusion correlates with the amount of probe associated with the inner leaflet. Taken together, these results demonstrate that the lactococcal MDR transporter functions as a 'hydrophobic vacuum cleaner', expelling drugs from the inner leaflet of the lipid bilayer. Thus, the ability of amphiphilic substrates to partition in the inner leaflet of the membrane is a prerequisite for recognition by multidrug transporters.
...
PMID:Multidrug resistance in Lactococcus lactis: evidence for ATP-dependent drug extrusion from the inner leaflet of the cytoplasmic membrane. 886 52
P-glycoprotein
(Pgp), a member of the ATP-binding cassette family of transporters, is an important mediator of multidrug resistance in cancer. Pgp exhibits a very broad specificity for substrates. These substrates share a common feature of being amphipathic and can orient into either leaflet of the membrane bilayer. Current evidence suggests that Pgp recognizes and extracts substrates from the membrane bilayer, but from which leaflet is unresolved. To directly test whether Pgp can decrease substrate concentration in the extracellular leaflet of the plasma membrane in living cells, we used the fluorescent lipid analogue 1-[4-(trimethylamino)phenyl]-6-phenylhexa-1,3,5-triene (
TMA
-DPH).
TMA
-DPH in the extracellular solution rapidly partitions into the extracellular leaflet of the plasma membrane and exhibits slow transbilayer flipping into the cytoplasmic leaflet. Because
TMA
-DPH fluorescence is confined to the extracellular leaflet in early time points after addition but labels intracellular membranes after longer incubation, we can assess the effect of Pgp on
TMA
-DPH concentration from both extracellular leaflet and intracellular membranes. Transient transfection with a Pgp and the green fluorescence protein (GFP) fusion protein generated cells with heterogeneous expression levels of Pgp-GFP. Compared with nonexpressing cells, cells expressing Pgp-GFP showed decreased accumulation of
TMA
-DPH in intracellular membranes but similar levels of accumulation in the extracellular leaflet of the plasma membrane. Additionally, in drug-selected MCF7/Adr cells, which constitutively express high levels of Pgp, inhibition of Pgp by cyclosporin A resulted in significantly increased accumulation of
TMA
-DPH in intracellular membranes but no difference in its accumulation in the extracellular leaflet of the plasma membrane. These data indicate that whereas Pgp can extract
TMA
-DPH from the cytoplasmic leaflet of the membrane, any activity Pgp may possess in the extracellular leaflet is insufficient to decrease
TMA
-DPH concentration there and, therefore, does not contribute to lowering the cellular levels. Pgp is the prototype of an increasing number of clinically important ATP-binding cassette transporters of amphipathic drugs and lipids. These results may help decipher a common mechanism of these transporters.
...
PMID:P-glycoprotein does not reduce substrate concentration from the extracellular leaflet of the plasma membrane in living cells. 1169 90
The purpose of this study was to analyze the effects of two common monoglyceride components of lipid excipients, 1-monoolein and 1-monostearin, on the activity and expression of
P-glycoprotein
(
P-gp
) in Caco-2 cells. Non-cytotoxic concentrations of 1-monoolein and 1-monostearin were determined by assessing membrane permeability and mitochondrial activity in Caco-2 cells, a human colon adenocarcinoma cell line. Concentrations of 500 and 100 microM were used to evaluate
P-gp
activity through Rh123 accumulation and bifunctional transport studies. The
P-gp
protein expression levels were quantified through the use of immunoblots. The changes in cell membrane fluidity and nuclear membrane integrity upon the addition of monoglycerides were analyzed by fluorescence anisotropy using DPH and
TMA
-DPH as the fluorescent labels and by using increasing salt concentrations to release the nuclear contents, respectively. The absorptive flux (apical to basolateral) in the bifunctional transport studies was not found to be statistically significant for the non-cytotoxic concentrations of 1-monoolein and 1-monostearin. However, treatments of 500 and 100 microM of 1-monoolein or 1-monostearin displayed statistically lowered efflux (basolaterial to apical, P < 0.05) compared to the controls (7.9 +/- 0.8, 12.9 +/- 2.6 x 10 (6) cm/s for 1-monoolein or 11.1 +/- 2.0, 11.4 +/- 2.3 x 10 (6) cm/s for 1-monostearin, respectively, compared to the untreated control, 21.1 +/- 2.9 x 10 (6) cm/s, n = 5). Rh123 accumulation was also found to be enhanced upon 24 h incubation with both concentrations of the monoglycerides; however, only concentrations of 500 muM of the monoglycerides were shown to significantly reduce the
P-gp
protein expression. The results from this study suggest that these two monoglycerides, common components in various lipid excipients, are inhibitors of
P-gp
.
...
PMID:Effects of monoglycerides on P-glycoprotein: modulation of the activity and expression in Caco-2 cell monolayers. 2718 79
The present study aimed to investigate the role played by the leaflets of the plasma membrane in the uptake of drugs into cells and in their extrusion by
P-glycoprotein
and multidrug resistance-associated protein 1. Drug accumulation was monitored by fluorescence resonance energy transfer from trimethylammonium-diphenyl-hexatriene (TMA-DPH) located at the outer leaflet to a rhodamine analog. Uptake of dye into cells whose mitochondria had been inactivated was displayed as two phases of
TMA
-DPH fluorescence quenching. The initial phase comprised a rapid drop in fluorescence that was neither affected by cooling the cells on ice, nor by activity of mitochondria or ABC transporters. This phase reflects the association of dye with the outer leaflet of the plasma membrane. The subsequent phase of
TMA
-DPH fluorescence quenching occurred in drug-sensitive cell lines with a half-life in the range 20-40 s. The second phase of fluorescence quenching was abolished by incubation of the cells on ice and was transiently inhibited in cells with active mitochondria. Thus, the second phase of fluorescence quenching reflects the accumulation of dye in the cytoplasmic leaflet of the plasma membrane, presumably as a result of flip-flop of dye across the plasma membrane and slow diffusion from the inner leaflet into the cells. Whereas activity of
P-glycoprotein
prevented the second phase of fluorescence quenching, the activity of multidrug resistance-associated protein 1 had no effect on this phase. Thus,
P-glycoprotein
appears to pump rhodamines from the cytoplasmic leaflet either to the outer leaflet or to the outer medium.
...
PMID:Role of the plasma membrane leaflets in drug uptake and multidrug resistance. 2012 43
