Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The ATP-driven xenobiotic transporter P-glycoprotein is a critical element of the blood-brain barrier. To study regulation of P-glycoprotein function, we measured specific transport [(3'-oxo-4-butenyl-4-methyl-threonine(1), (valine(2)) cyclosporin (PSC833)-sensitive] of the fluorescent cyclosporin A derivative [N-epsilon(4-nitrobenzofurazan-7-yl)-D-Lys(8)]-cyclosporin A (NBDL-CSA) into the lumens of isolated rat brain capillaries using confocal microscopy and quantitative image analysis. Luminal NBDL-CSA accumulation was rapidly and reversibly reduced in a concentration-dependent manner by 0.1 to 100 nM endothelin-1 (ET-1). In this concentration range, ET-1 did not affect junctional permeability. The ET(B) receptor agonist sarafotoxin 6c also reduced transport. An ET(B) receptor antagonist blocked effects of ET-1 and sarafotoxin 6c; an ET(A) receptor antagonist was without effect. Consistent with this, immunostaining and Western blotting showed expression of the ET(B) receptor in brain capillary membranes. NBDL-CSA transport was also reduced by sodium nitroprusside, a NO donor, and by phorbol ester, a protein kinase C (PKC) activator. Inhibition of NO synthase (NOS) or PKC abolished the ET-1 effects. Thus, ET-1, acting through an ET(B) receptor, NOS, and PKC rapidly and reversibly reduced transport mediated by P-glycoprotein at the blood-brain barrier.
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PMID:Rapid regulation of P-glycoprotein at the blood-brain barrier by endothelin-1. 1532 29

Patients with refractory inflammatory bowel disease (IBD) exhibit increased expression of intestinal P-glycoprotein (P-gp) as well as elevated luminal IFN-gamma and nitric oxide (NO) levels. Using the in vitro Caco-2 cell culture model, we investigated whether these pathological mediators associated with the etiology of IBD affect functional activity of intestinal efflux systems. IFN-gamma reduced cellular uptake of cyclosporin A (CysA) but not methotrexate (MTX) in a time- and concentration-dependent manner. Simultaneously, P-gp expression increased by approximately twofold. Coincubation with the inducible NO synthase inhibitor l-N(6)-(1-iminoethyl)lysine (l-NIL) dramatically reduced production of intracellular NO in response to IFN-gamma stimulus. The presence of l-NIL also abrogated the cytokine-mediated increase in P-gp expression and function suggesting that NO is required for IFN-gamma-mediated activation of this efflux system. Exposure of Caco-2 cells to the chemical NO donor S-nitroso-N-acetylpenicillamine (SNAP) produced a concentration-dependent decrease in intracellular CysA accumulation that was paralleled by an increase in P-gp expression. Both IFN-gamma and SNAP enhanced DNA binding of NF-kappaB, whereas inclusion of l-NIL dramatically decreased this cytokine-induced effect on NF-kappaB binding. These results suggest that NO mediates IFN-gamma-induced increase in expression and function of intestinal P-gp in the human Caco-2 cell culture model by altering DNA binding of NF-kappaB, which may enhance transcription of the ABCB1 gene encoding for this efflux system.
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PMID:Nitric oxide mediates increased P-glycoprotein activity in interferon-{gamma}-stimulated human intestinal cells. 1548 47

The present study was designed to clarify the involvement of nitric oxide (NO) signaling in the adverse effect of cyclosporine on the blood-brain barrier. Cyclosporine increased the permeability of sodium-fluorescein and the cellular accumulation of rhodamine 123, a substrate of P-glycoprotein, in mouse brain endothelial (MBEC4) cells. This effect was markedly enhanced two- to threefold when MBEC4 cells were cocultured with rat astrocytes or C6 glioma cells. Direct and continuous electrochemical measurement of NO demonstrated that cyclosporine dose-dependently increased histamine- and phenylephrine-evoked NO production in MBEC4 cells and astrocytes, respectively. A NO synthase inhibitor (NG-monomethyl-L-arginine) blocked slightly and markedly cyclosporine-induced impairment of the endothelial barrier in the monolayer and coculture system, respectively. These findings suggest that cyclosporine impairs the brain endothelial barrier function by accelerating NO production in the brain endothelial and astroglial cells. This event may be interpreted as triggering the occurrence of cyclosporine neurotoxicity.
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PMID:Nitric oxide mediates cyclosporine-induced impairment of the blood-brain barrier in cocultures of mouse brain endothelial cells and rat astrocytes. 1555 36

At the blood-brain barrier, P-glycoprotein, an ATP-driven drug efflux pump, selectively limits drug access to the brain parenchyma, impeding pharmacotherapy of a number of central nervous system (CNS) disorders. We previously used confocal imaging to demonstrate in isolated rat brain capillaries that endothelin-1 (ET-1), acting through an ET(B) receptor, NO synthase, and protein kinase C, rapidly and reversibly reduces P-glycoprotein transport function. In this study, we define a link between the brain's innate immune response and functional regulation of P-glycoprotein. We show that exposing brain capillaries to the inflammatory cytokine tumor necrosis factor-alpha (TNF-alpha), activated a TNF-R1 receptor, released ET-1, activated ET(B) receptor signaling, and essentially abolished P-glycoprotein-mediated transport. Bacterial lipopolysaccharide, a potent activator of the brain's innate immune response, reduced P-glycoprotein activity through TNF-alpha release, ET-1 release, and ET(B) receptor signaling. TNF-alpha and LPS effects had a rapid onset (minutes), were reversible, and did not involve changes in tight junctional permeability. These findings define a signaling pathway through which P-glycoprotein activity is acutely modulated. They show that this key component of the selective/active blood-brain barrier is an early target of cytokine signaling during the innate immune response and suggest ways to manipulate the barrier for improved CNS pharmacotherapy.
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PMID:Rapid modulation of P-glycoprotein-mediated transport at the blood-brain barrier by tumor necrosis factor-alpha and lipopolysaccharide. 1627 73

Human malignant mesothelioma (HMM) is resistant to many anticancer drugs, including doxorubicin. Mevastatin and simvastatin, 2 inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A (HMGCoA) reductase, potentiated the intracellular accumulation and the cytotoxicity of doxorubicin in HMM cells constitutively expressing P-glycoprotein and multidrug resistance-associated protein 3. This effect of statins was nitric oxide (NO)-dependent, since it was reverted by either an NO synthase inhibitor or an NO scavenging system. The NO synthase up-regulation in HMM and other cells is known to be associated with the activation of the transcription factor NF-kappaB: in HMM cells statins increased the NF-kappaB translocation into the nucleus, decreased the level of the NF-kappaB inhibitor IkBalpha and increased the phosphorylation/activation of IkB kinase alpha (IKKalpha). IKKalpha is under the negative control exerted by RhoA in its prenylated (active) form: incubation of HMM cells with statins lowered the amount of active RhoA and the level of Rho-associated kinase activity. All statins' effects were reverted by mevalonic acid, thus suggesting that they were mediated by the inhibition of HMGCoA reductase and were likely to be subsequent to the reduced availability of precursor molecules for RhoA prenylation. Both the Rho kinase inhibitor Y27632 and the RhoA inhibitor toxin B (from Clostridium difficile) mimicked the statins' effects, enhancing doxorubicin accumulation, NO synthesis and IKKalpha phosphorylation and decreasing the amount of IkBalpha in HMM cells. Simvastatin, Y27632 and toxin B elicited tyrosine nitration in the P-glycoprotein, thus providing a likely mechanism by which NO reverts the doxorubicin resistance in HMM cells.
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PMID:Statins revert doxorubicin resistance via nitric oxide in malignant mesothelioma. 1645 Mar 90

Nitric oxide (NO) is an important regulator of renal transport processes. In the present study, we investigated the role of NO, produced by inducible NO synthase (iNOS), in the regulation of renal ATP-binding cassette (ABC) transporters in vivo during endotoxemia. Wistar-Hannover rats were injected with lipopolysaccharide (LPS(+)) alone or in combination with the iNOS inhibitor, aminoguanidine. Controls received detoxified LPS (LPS(-)). After LPS(+), proximal tubular damage and a reduction in renal function were observed. Furthermore, iNOS mRNA and protein, and the amount of NO metabolites in plasma and urine, increased compared to the LPS(-) group. Coadministration with aminoguanidine resulted in an attenuation of iNOS induction and reduction of renal damage. Gene expression of 20 ABC transporters was determined. After LPS(+), a clear up-regulation in Abca1, Abcb1/P-glycoprotein (P-gp), Abcb11/bile salt export pump (Bsep), and Abcc2/multidrug resistance protein (Mrp2) was found, whereas Abcc8 was down-regulated. Up-regulation of Abcc2/Mrp2 was accompanied by enhanced calcein excretion. Aminoguanidine attenuated the effects on transporter expression. Our data indicate that NO, produced locally by renal iNOS, regulates the expression of ABC transporters in vivo. Furthermore, we showed, for the first time, expression and subcellular localization of Abcb11/Bsep in rat kidney.
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PMID:Nitric oxide differentially regulates renal ATP-binding cassette transporters during endotoxemia. 1728

In the kidney, P-glycoprotein (Abcb1), an ATP-driven drug efflux pump, plays an important role in the detoxification of proximal tubule cells through the excretion of cationic and amphipathic organic compounds. We recently found that NO, produced by renal inducible NO synthase (iNOS), is involved in an up-regulation of P-glycoprotein during endotoxemia in rats. In the present study, we investigated the functional consequences of endotoxemia on the renal handling of rhodamine 123 by using isolated perfused rat kidneys. Wistar Hannover rats were injected intraperitoneally with 5 mg/kg body weight lipopolysaccharide (LPS) or with both LPS and the iNOS inhibitor, aminoguanidine. Despite an increased P-glycoprotein expression, we found a diminished urinary rhodamine 123 clearance 12 h after LPS (P<0.001). In addition, we found a diminished perfusate clearance (P<0.05) for rhodamine 123 after LPS treatment, suggesting a predominant role of influx carriers in urinary rhodamine 123 excretion. We examined the expression levels of organic cation transporter 1 (Slc22a1/Oct1) and Slc22a2/Oct2. Both appeared to be down-regulated at the mRNA and protein level, 12 h after LPS. Co-administration of aminoguanidine attenuated the down-regulation of both Oct1 and Oct2 protein expression and reversed the decrease in rhodamine 123 clearance (P<0.001). These findings indicate that NO, produced by iNOS, is responsible for a down-regulation of the influx carriers, Oct1 and Oct2.
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PMID:Nitric oxide down-regulates the expression of organic cation transporters (OCT) 1 and 2 in rat kidney during endotoxemia. 1831 62

The efficacy of doxorubicin in the treatment of cancer is limited by its side effects and by the onset of drug resistance. Reverting such resistance could allow the decrease of the dose necessary to eradicate the tumor, thus diminishing the toxicity of the drug. We transfected doxorubicin-sensitive (HT29) and doxorubicin-resistant (HT29-dx) human colon cancer cells with RhoA small interfering RNA. The subsequent decrease of RhoA protein was associated with the increased sensitivity to doxorubicin in HT29 cells and the complete reversion of doxorubicin resistance in HT29-dx cells. RhoA silencing increased the activation of the nuclear factor-kappaB pathway, inducing the transcription and the activity of nitric oxide synthase. This led to the tyrosine nitration of the multidrug resistance protein 3 transporter (MRP3) and contributed to a reduced doxorubicin efflux. Moreover, RhoA silencing decreased the ATPase activity of P-glycoprotein (Pgp) in HT29 and HT29-dx cells as a consequence of the reduced expression of Pgp. RhoA silencing, by acting as an upstream controller of both MRP3 nitration and Pgp expression, was effective to revert the toxicity and accumulation of doxorubicin in both HT29 and HT29-dx cells. Therefore, we suggest that inactivating RhoA has potential clinical applications and might in the future become part of a gene therapy protocol.
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PMID:RhoA silencing reverts the resistance to doxorubicin in human colon cancer cells. 1892 76

During endotoxemia, the ATP-dependent drug efflux pump P-glycoprotein (Abcb1/P-gp) is upregulated in kidney proximal tubule epithelial cells. The signaling pathway through which lipopolysaccharide (LPS) or tumor necrosis factor-alpha (TNF-alpha) regulates P-gp expression and activity was investigated further in the present study. Exposure of rat kidney proximal tubule cells to TNF-alpha alone or TNF-alpha and LPS increased P-gp gene and protein expression levels and efflux activity, suggesting de novo P-gp synthesis. Upon exposure to TNF-alpha in combination with LPS, P-gp activity in renal proximal tubule cells is increased under influence of nitric oxide (NO) produced by inducible NO synthase. Upon exposure to TNF-alpha alone, P-gp upregulation seems to involve TLR4 activation and nuclear factor kappaB (NF-kappaB) translocation, a pathway that is likely independent of NO. These findings indicate that at least two pathways regulate P-gp expression in the kidney during endotoxemia.
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PMID:Regulation of P-glycoprotein in renal proximal tubule epithelial cells by LPS and TNF-alpha. 2030 Apr 55

The aim of the present study was to evaluate the effect of 3-(5'-hydroxymethyl-2'-furyl)-1-benzylindazole (YC-1) on multidrug resistance. Expression of human P-glycoprotein was assessed by realtime quantitative RT-PCR and western blot. The efflux function of P-glycoprotein was evaluated by rhodamine 123 accumulation and calcein-AM uptake models. The mechanisms of action of YC-1 on different signaling pathways were studied using series of antagonists and the kinetics was also assessed. Cytotoxicity was evaluated by MTT assay. The results demonstrated that increased intracellular accumulation of rhodamine 123 and increased fluorescence of calcein were observed after YC-1 treatment. Furthermore, increased YC-1 concentration resulted in significant decrease in Vmax while K(M) remained unchanged suggested that YC-1 acted as a noncompetitive inhibitor of P-glycoprotein. Moreover, the inhibition of Pgp efflux function by YC-1 was significantly reversed by NO synthase inhibitor, (L)-NAME, the sGC inhibitor, ODQ, the PKG inhibitor, Rp-8-Br-PET-cGMPS, and the PKG inhibitor KT5823. In addition, ERK kinase inhibitor PD98059 also significantly restored YC-1 inhibited Pgp efflux function. These results indicated that YC-1 inhibited Pgp efflux via the NO-cGMP-PKG-ERK signaling pathway through noncompetitive inhibition. The present study revealed that YC-1 could be a good candidate for development as a MDR modulator.
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PMID:YC-1, a novel potential anticancer agent, inhibit multidrug-resistant protein via cGMP-dependent pathway. 2067 45


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