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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)
The LLC-
PK1
:MDR1, LLC-
PK1
and Caco-2 cell lines were used to investigate whether rhodamine-123 or doxorubicin would be the preferred substrate to study
P-glycoprotein
(
P-gp
) functionality in vitro. Both rhodamine-123 and doxorubicin showed highly polarised transport in the Caco-2 cell line and the LLC-
PK1
:MDR1 cell line, indicating that
P-gp
is actively transporting these drugs. However, for rhodamine-123 polarised transport was also seen in the monolayers of the wild-type LLC-
PK1
cell line, indicating the presence of another active transporter for this compound. Polarised transport of doxorubicin in the Caco-2 and the LLC-
PK1
:MDR1 cell lines could be inhibited by the
P-gp
inhibitors SDZ-PSC 833 (PSC 833), cyclosporin A (CsA), verapamil and quinine, but not by the inhibitors for the organic cation carrier systems cimetidine and tetraethylammonium (TEA). Polarised transport of rhodamine-123 in the Caco-2 cell line could only be inhibited by
P-gp
inhibitors. In the LLC-
PK1
:MDR1 and LLC-
PK1
cell lines transport was also inhibited by inhibitors for the organic cation transport systems. In conclusion, rhodamine-123 is a substrate for both
P-gp
and the organic cation carrier systems in the kidney cell line. This indicates that rhodamine-123 is not selective enough to study
P-gp
functionality in cell systems were organic cation carrier systems are also present. Doxorubicin appears to be a more selective
P-gp
substrate and therefore more useful in studying
P-gp
functionality in vitro.
...
PMID:Specificity of doxorubicin versus rhodamine-123 in assessing P-glycoprotein functionality in the LLC-PK1, LLC-PK1:MDR1 and Caco-2 cell lines. 1104 26
The role of mdr1a-encoded
P-glycoprotein
on transport of several fluoroquinolones across the blood-brain barrier was investigated. In vitro,
P-glycoprotein
substrates were selected by using a confluent monolayer of MDR1-LLC-
PK1
cells. The inhibition of fluoroquinolones (100 microM) on transport of rhodamine-123 (1 microM) was compared with
P-glycoprotein
inhibitors verapamil (20 microM) and SDZ PSC 833 (2 microM). Subsequently, transport polarity of fluoroquinolones was studied. Sparfloxacin showed the strongest inhibition (26%) and a large polarity in transport, by
P-glycoprotein
activity. In vivo, using mdr1a (-/-) and wild-type mice, brain distribution of pefloxacin, norfloxacin, ciprofloxacin, fleroxacin and sparfloxacin was determined at 2, 4, and 6 h following intra-arterial infusion (50 nmol/min). Brain distribution of sparfloxacin was clearly higher in mdr1a (-/-) mice compared with wild-type mice. Sparfloxacin was infused (50 nmol/min) for 1, 2, 3 and 4 h in which intracerebral microdialysis was performed. At 4 h, in vivo recovery (dynamic-no-net-flux method) was 6.5+/-2.2 and 1.5+/-0.5%; brain(ECF) concentrations were 5.1+/-0.2 and 26+/-21 microM; and total brain concentrations were 7.2+/-0.3 and 23+/-0.3 microM in wild-type and mdr1a (-/-) mice, respectively. Plasma concentrations were similar (18.4+/-0.7 and 17.9+/-0.5 microM, respectively). In conclusion, sparfloxacin enters the brain poorly mainly because of
P-glycoprotein
activity at the blood-brain barrier.
...
PMID:In vitro and in vivo investigations on fluoroquinolones; effects of the P-glycoprotein efflux transporter on brain distribution of sparfloxacin. 1110 35
P-glycoprotein
(
P-gp
) and multidrug resistance related protein (MRP) overexpression is often responsible of the development of multidrug resistance in cancer therapy. These proteins are also expressed in normal tissues, where their physiological role is related to the extrusion of endogenous toxins or to secretory function in liver and kidney. The LLC-
PK1
cell line is derived from normal pig proximal renal tubule and physiologically expresses low levels of
P-gp
and MRP. A resistant cell line (LLC-
PK1
/ADR) has been established in our laboratory by chronic exposure to increasing doses of doxorubicin. Cytofluorimetric analysis of
P-gp
and MRP expression performed by C219 and MRPm6 immunofluorescence detection showed that these cells overexpress
P-gp
but not MRP. The uptake of doxorubicin and rhodamine 123 has been quantified in LLC-
PK1
and LLC-
PK1
/ADR cells and compared with data obtained using other tumor cell lines commonly used as reference for studying
P-gp
or MRP overexpression. P388 sensitive cells and its resistant counterpart P388/ADR cells, which overexpress
P-gp
and PANC-1 cells, which express high levels of MRP were used. A lower fluorescence intensity was evident with both doxorubicin and rhodamine 123 in LLC-
PK1
/ADR as well as in P388/ADR cells, that overexpresses
P-gp
, in comparison with the parental lines. The uptake was increased by a pretreatment with verapamil. Verapamil was completely ineffective on PANC-1 cells, confirming a selective effect of this inhibitor on
P-gp
. Propidium iodide staining, performed after doxorubicin treatment, confirmed a higher cytotoxicity of the antineoplastic drug in the LLC-
PK1
cells compared with the resistant counterpart.
...
PMID:Cytofluorimetric analysis of a renal tubular cell line and its resistant counterpart. 1113 40
Drug delivery across the blood-brain barrier is limited by several mechanisms. One important mechanism is drug efflux, mediated by several transport proteins, including
P-glycoprotein
. The goal of this work was to examine the effect of a novel drug delivery system, Pluronic block copolymer P85, on
P-glycoprotein
-mediated efflux from the brain using in vitro and in vivo methods. The hypothesis was that specific Pluronic copolymer systems enhance drug delivery to the central nervous system through the inhibition of
P-glycoprotein
. The effect of P85 on the cellular accumulation and transport of digoxin, a model
P-glycoprotein
substrate, was examined in porcine kidney epithelial cells (LLC-
PK1
) transfected with the human MDR1 gene. The effect of P85 on the directional flux across an in vitro BBB was also characterized. In vivo brain distribution studies were accomplished using wild-type and
P-glycoprotein
knockout mice. Pluronic increased the cellular accumulation of digoxin 3-fold in LLC-
PK1
cells and 5-fold in the LLC-
PK1
-MDR1-transfected cells. Similar effects were observed for a prototypical
P-glycoprotein
substrate rhodamine-123. P85 treatment decreased the basolateral-to-apical and increased the apical-to-basolateral digoxin flux across LLC-
PK1
-MDR1 cell monolayers, and analogous results were observed with the in vitro BBB monolayers. The coadministration of 1% P85 with radiolabeled digoxin in wild-type mice increased the brain penetration of digoxin 3-fold and the digoxin level in the P85-treated wild-type mice was similar to that observed in the
P-glycoprotein
-deficient animals. These data indicate that Pluronic P85 can enhance the delivery of digoxin to the brain through the inhibition of the
P-glycoprotein
-mediated efflux mechanism.
...
PMID:Pluronic P85 enhances the delivery of digoxin to the brain: in vitro and in vivo studies. 1116 Jun 43
Digoxin is a drug with a narrow therapeutic index, which is substrate of the ATP-dependent efflux pump
P-glycoprotein
. Increased or decreased digoxin plasma concentrations occur in humans due to inhibition or induction of this drug transporter in organs with excretory function such as small intestine, liver and kidneys. Whereas particle size, dissolution rate and lipophilic properties have been identified as determinants for absorption of digitalis glycosides, little is known about
P-glycoprotein
transport characteristics of digitalis glycosides such as digitoxin, alpha-methyldigoxin, beta-acetyldigoxin and ouabain. Using polarized
P-glycoprotein
-expressing cell lines we therefore studied whether these compounds are substrates of
P-glycoprotein
. Polarized transport of digitalis glycosides was assessed in
P-glycoprotein
-expressing Caco-2 and L-MDR1 cells (LLC-
PK1
cells stably transfected with the human MDR1
P-glycoprotein
). Inhibition of
P-glycoprotein
-mediated transport of these compounds in Caco-2 cells was determined using the cyclosporine analogue PSC-833 (valspodar) as inhibitor of
P-glycoprotein
. No polarized transport was observed for ouabain. However, basal-to-apical transport of digitoxin, alpha-methyldigoxin and beta-acetyldigoxin was greater than apical-to-basal transport in Caco-2 and L-MDR1 cells. In Caco-2 cells net transport rates of these compounds were similar to those of digoxin (digoxin: 16.0+/-4.4%, digitoxin: 15.0+/-3.3%, beta-acetyldigoxin: 16.2+/-1.6%, alpha-methyldigoxin: 13.5+/-4.8%). Furthermore, polarized transport of these compounds could be completely inhibited by 1 microM PSC-833. In summary, these data provide evidence that not only digoxin, but also digitoxin, alpha-methyldigoxin and beta-acetyldigoxin are substrates of
P-glycoprotein
.
...
PMID:P-glycoprotein-mediated transport of digitoxin, alpha-methyldigoxin and beta-acetyldigoxin. 1128 49
In the present study, we investigated the role of the multidrug resistance (mdr)
P-glycoprotein
(Pgp) at the blood-brain barrier in the control of access of cortisol and corticosterone to the mouse and human brain. [(3)H]Cortisol poorly penetrated the brain of adrenalectomized wild-type mice, but the uptake was 3.5-fold enhanced after disruption of Pgp expression in mdr 1a(-/-) mice. In sharp contrast, treatment with [(3)H]corticosterone revealed high labeling of brain tissue without difference between both genotypes. Interestingly, human MDR1 Pgp also differentially transported cortisol and corticosterone. LLC-
PK1
monolayers stably transfected with MDR1 complementary DNA showed polar transport of [(3)H]cortisol that could be blocked by a specific Pgp blocker, whereas [(3)H]corticosterone transport did not differ between transfected and host cells. Determination of the concentration of both steroids in extracts of human postmortem brain tissue using liquid chromatography mass spectrometry revealed that the ratio of corticosterone over cortisol in the brain was significantly increased relative to plasma. In conclusion, the data demonstrate that in both mouse and human brain the penetration of cortisol is less than that of corticosterone. This finding suggests a more prominent role for corticosterone in control of human brain function than hitherto recognized.
...
PMID:Multidrug resistance P-glycoprotein hampers the access of cortisol but not of corticosterone to mouse and human brain. 1135 20
Transport of quinolone antimicrobials and the contribution of the secretory transporter
P-glycoprotein
were studied in-vivo and in-vitro. In rat intestinal tissue (Ussing chambers method) and human Caco-2 cells (Transwell method), grepafloxacin showed secretory-directed transport. In both experimental systems, the secretory-directed transport was decreased by ciclosporin A, an inhibitor of
P-glycoprotein
, and probenecid, an inhibitor of anion transport systems. This suggested the contribution of
P-glycoprotein
and anion-sensitive transporter(s). The involvement of
P-glycoprotein
was investigated by using a
P-glycoprotein
over-expressing cell line, LLC-GA5-COL150, and
P-glycoprotein
-gene-deficient mice (mdr1a(-/-)/1b(-/-) mice). LLC-GA5-COL150 cells showed secretory-directed transport of grepafloxacin, while the parent cell line, LLC-
PK1
, did not. The secretory-directed transport of sparfloxacin and levofloxacin was also detected in LLC-GA5-COL150 cells. In the mdr1a(-/-)/1b(-/-) mice, the intestinal secretory clearance was smaller than that in wild-type mice after intravenous administration of grepafloxacin. Moreover, the absorption from an intestinal loop in mdr1a(-/-)/1b(-/-) mice was larger than that in wild-type mice. Accordingly, it appears that some quinolones are transported by secretory transporters, including
P-glycoprotein
. The involved transporters function in-vivo not only to transport grepafloxacin from blood to intestine but also to limit its intestinal absorption.
...
PMID:Active intestinal secretion of new quinolone antimicrobials and the partial contribution of P-glycoprotein. 1137 Jul 9
The role of
P-glycoprotein
on the efflux of the 5-HT(1A) receptor agonist flesinoxan across the blood-brain barrier in vivo and in vitro was investigated. In vitro, the transport ratios (representing polarized transport) of flesinoxan (10 microg/ml) were 4.2 in the MDR1-transfected LLC-
PK1
cell line, which could be inhibited by the Pgp modulators SDZ-PSC 833 and LY 335979 and 1.1 in the wild-type LLC-
PK1
cell line after 4 h. Flesinoxan concentrations lower than 33 microg/ml were actively transported by Pgp, while at higher concentrations Pgp became saturated and transport in the MDR1-transfected cell line was comparable with the wild-type cell line. In the in vitro BBB co-culture model the transport ratio was 2.0 and was decreased to 1.0 in the presence of Pgp modulators. In vivo, the accumulation of flesinoxan in the brain at 3 h was much higher in the mdr1a(-/-) mice compared to mdr1a(+/+) mice (ratio 12.6 and 27.0 at dose levels of 3 mg/kg and 10 mg/kg respectively). In conclusion, both in vivo as well as in vitro results have demonstrated that Pgp is a limiting factor for the transport of the 5-HT(1A) receptor agonist flesinoxan into the CNS. This should be considered when its application in therapy is combined with other Pgp substrates.
...
PMID:Active efflux of the 5-HT(1A) receptor agonist flesinoxan via P-glycoprotein at the blood-brain barrier. 1145 54
The human multidrug-resistance (MDR1)
P-glycoprotein
(Pgp) is an ATP-binding-cassette transporter (ABCB1) that is ubiquitously expressed. Often its concentration is high in the plasma membrane of cancer cells, where it causes multidrug resistance by pumping lipophilic drugs out of the cell. In addition, MDR1 Pgp can transport analogues of membrane lipids with shortened acyl chains across the plasma membrane. We studied a role for MDR1 Pgp in transport to the cell surface of the signal-transduction molecule platelet-activating factor (PAF). PAF is the natural short-chain phospholipid 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine. [(14)C]PAF synthesized intracellularly from exogenous alkylacetylglycerol and [(14)C]choline became accessible to albumin in the extracellular medium of pig kidney epithelial LLC-
PK1
cells in the absence of vesicular transport. Its translocation across the apical membrane was greatly stimulated by the expression of MDR1 Pgp, and inhibited by the MDR1 inhibitors PSC833 and cyclosporin A. Basolateral translocation was not stimulated by expression of the basolateral drug transporter MRP1 (ABCC1). It was insensitive to the MRP1 inhibitor indomethacin and to depletion of GSH which is required for MRP1 activity. While efficient transport of PAF across the apical plasma membrane may be physiologically relevant in MDR1-expressing epithelia, PAF secretion in multidrug-resistant tumours may stimulate angiogenesis and thereby tumour growth.
...
PMID:Multidrug-resistance P-glycoprotein (MDR1) secretes platelet-activating factor. 1146 58
1. UK-343,664 is a potent and specific PDE5 inhibitor. Following single oral doses to human volunteers, it exhibited non-proportional pharmacokinetics over the dose range 30-800 mg. Over this 27-fold dose range, Cmax and AUCt increased 247- and 287-fold respectively. The half-life (4-6 h) was similar at all doses. No systemic exposure was quantifiable at doses <10 mg. 2. UK-343,664 is a lipophilic molecule (log D7.4 = 3.1) and as such is expected to be cleared mainly by metabolism. Based on studies with expressed human P450 enzymes it was concluded that the metabolism of UK-343,664 was predominantly mediated by CYP3A4. With a moderate Km = 76 microM for this enzyme, saturation of first-pass metabolism alone was considered unlikely to account for the non-proportional pharmacokinetics. 3. UK-343,664 showed high affinity for
P-glycoprotein
in vitro, with a Km = 7.3 microM. In transport studies in LLC-
PK1
cell monolayers transfected with
P-glycoprotein
, UK343,664 showed marked polarized transport which was concentration dependent. 4. The high affinity of UK-343,664 for
P-glycoprotein
is considered to be the primary source of the non-proportional pharmacokinetic profile observed in man.
...
PMID:Potential role for P-glycoprotein in the non-proportional pharmacokinetics of UK-343,664 in man. 1156 32
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