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Transporter Inhibitor (transporter + inhibitor)
Selected AbstractsCombined Pharmacophore Modeling, Docking, and 3D QSAR Studies of ABCB1 and ABCC1 Transporter InhibitorsCHEMMEDCHEM, Issue 11 2009Abstract Quinazolinones, indolo- and pyrrolopyrimidines with inhibitory effects toward ABCB1 (P-gp) and ABCC1 (MRP1) transporters were studied by pharmacophore modeling, docking, and 3D QSAR to describe the binding preferences of the proteins. The pharmacophore overlays between dual and/or highly selective inhibitors point to binding sites of different topology and physiochemical properties for MRP1 and P-gp. Docking of selective inhibitors into the P-gp binding cavity by the use of a structural model based on the recently resolved P-gp structure confirms the P-gp pharmacophore features identified, and reveals the interactions of some functional groups and atoms in the structures with particular protein residues. The 3D QSAR analysis of the dual-effect inhibitors allows satisfactory prediction of the selectivity index of the compounds and outlines electrostatics as most important for selectivity. The results from the combined modeling approach complement each other and could improve our understanding of the protein,ligand interactions involved, and could aid in the development of highly selective and potent inhibitors of P-gp and MRP1. [source] Adenosine downregulates cytokine-induced expression of intercellular adhesion molecule-1 on rheumatoid synovial fibroblasts independently of adenosine receptor signalingDRUG DEVELOPMENT RESEARCH, Issue 4 2003Takashi Nakazawa Abstract Adhesion of fibroblast-like synoviocytes (FLSs) to T cells through the interaction of lymphocyte function-associated antigen-1 (LFA-1) and intercellular adhesion molecule-1 (ICAM-1) plays a pivotal role in the pathogenesis of rheumatoid arthritis (RA). We therefore used flow cytometry and quantitative polymerase chain reaction (PCR) to examine the effect of adenosine and its derivatives on expression of ICAM-1 induced by tumor necrosis factor-alpha and interferon-gamma in primary rheumatoid FLSs (RA-FLSs) and E11 cells, an RA-FLS line. Exposing cells to adenosine (5,500 µM) for 24 h in the presence of coformycin, an adenosine deaminase inhibitor, concentration-dependently inhibited cytokine-induced transcription of ICAM-1 mRNA, as well as subsequent surface expression of the protein. Although transcription of all four adenosine receptor isoforms has been detected in FLSs, neither the A1 receptor agonist R-PIA, the A2A receptor agonist CGS21680 nor the A3 agonist Cl-IB-MECA had any effect on cytokine-induced ICAM-1 expression. Conversely, A1/A2 receptor antagonist xanthine amine congener and A2A antagonist ZM240385 both failed to suppress the effect of adenosine. Adenosine appears to inhibit cytokine-induced ICAM-1 expression in FLSs independently of adenosine receptor-mediated signaling. By contrast, the effect of adenosine was neutralized by nitrobenzylmercaptopurin, a nucleoside transporter inhibitor, or by ABT702, an adenosine kinase inhibitor. This suggests that adenosine taken up via the nucleoside transporter is phosphorylated by adenosine kinase, and the resultant phospho-adenosine interferes with the ICAM-1 transcription and cell surface expression. Downregulation of T cell,FLS interaction by adenosine may thus represent a novel approach to the treatment of RA. Drug Dev. Res. 58:368,376, 2003. © 2003 Wiley-Liss, Inc. [source] Cognitive enhancement as a pharmacotherapy target for stimulant addictionADDICTION, Issue 1 2010Mehmet Sofuoglu ABSTRACT Background No medications have been proven to be effective for cocaine and methamphetamine addiction. Attenuation of drug reward has been the main strategy for medications development, but this approach has not led to effective treatments. Thus, there is a need to identify novel treatment targets in addition to the brain reward system. Aim To propose a novel treatment strategy for stimulant addiction that will focus on medications enhancing cognitive function and attenuating drug reward. Methods Pre-clinical and clinical literature on potential use of cognitive enhancers for stimulant addiction pharmacotherapy was reviewed. Results and conclusions Cocaine and methamphetamine users show significant cognitive impairments, especially in attention, working memory and response inhibition functions. The cognitive impairments seem to be predictive of poor treatment retention and outcome. Medications targeting acetylcholine and norepinephrine are particularly well suited for enhancing cognitive function in stimulant users. Many cholinergic and noradrenergic medications are on the market and have a good safety profile and low abuse potential. These include galantamine, donepezil and rivastigmine (cholinesterase inhibitors), varenicline (partial nicotine agonist), guanfacine (alpha2 -adrenergic agonist) and atomoxetine (norepinephrine transporter inhibitor). Future clinical studies designed optimally to measure cognitive function as well as drug use behavior would be needed to test the efficacy of these cognitive enhancers for stimulant addiction. [source] ASSESSING ABSORBABILITY OF BIOACTIVE COMPONENTS IN ALOE USING IN VITRO DIGESTION MODEL WITH HUMAN INTESTINAL CELLJOURNAL OF FOOD BIOCHEMISTRY, Issue 2 2010SOON-MI SHIM ABSTRACT This study used a simulated in vitro digestion model coupled with caco-2 cell to assess the digestive stability and absorption of aloin, aloe-emodin and aloenin A. Aloenin A and aloe-emodin were stable and entirely recovered during simulated digestion, but 50% of aloin was lost. Approximately 53.2, 7.3 and 28.7% of aloe-emodin, aloenin A and aloin, respectively, was transported into both apical and basolateral compartments after 1 h incubation in caco-2 cell. The involvement of several transporter proteins for aloin and aloenin A was examined. An inhibitor of SGLT1 on apical surface (phloridzin) or that of GLUT2 on basolateral membrane (cytochalasin B) reduced the absorption of aloin by 40 or 60%, respectively, indicating that aloin is likely to be a partial substrate of SGLT1. In the presence of an efflux transporter inhibitor (verapamil), the transport of aloenin A through an intentinal apical membrane increased up to 2.1 times compared with the control (without verapamil). PRACTICAL APPLICATIONS Our results on both digestive stability and intestinal absorption characteristics of bioactive components in aloe could be of helpful information for promoting its bioavailability. The in vitro technique described in this study provides a rapid and cost-effective alternative for predicting bioavailability of biomarkers in aloe functional food. [source] The effects of local perfusion of DAMGO on extracellular GABA and glutamate concentrations in the rostral ventromedial medullaJOURNAL OF NEUROCHEMISTRY, Issue 3 2008Raf Jan-Filip Schepers Abstract Electrophysiological data suggest an involvement of rostral ventromedial medulla (RVM) GABA and glutamate (GLU) neurons in morphine analgesia. Direct evidence that extracellular concentrations of GABA or GLU are altered in response to mu opioid receptor (MOP-R) activation is, however, lacking. We used in vivo microdialysis to investigate this issue. Basal GABA overflow increased in response to intra-RVM perfusion of KCl (60 mmol/L). Reverse microdialysis of the MOP-R agonist d -Ala(2),NMePhe(4),Gly-ol(5)]enkephalin (DAMGO) (20,500 ,mol/L) produced a concentration-dependent decrease of RVM GABA overflow. Behavioral testing revealed that concentrations that decreased GABA levels increased thermal withdrawal thresholds. A lower agonist concentration that did not increase GABA failed to alter thermal thresholds. DAMGO did not alter GLU concentrations. However, KCl also failed to modify GLU release. Since rapid, transporter-mediated uptake may mask the detection of changes in GLU release, the selective excitatory amino acid transporter inhibitor pyrrolidine-2,4-dicarboxylic acid (tPDC, 0.6 mmol/L) was added to the perfusion medium for subsequent studies. tPDC increased GLU concentrations, confirming transport inhibition. KCl increased GLU dialysate levels in the presence of tPDC, demonstrating that transport inhibition permits detection of depolarization-evoked GLU overflow. In the presence of tPDC, DAMGO increased GLU overflow in a concentration-dependent manner. These data demonstrate that MOP-R activation decreases GABA and increases GLU release in the RVM. We hypothesize that the opposing effects of MOP-R on GLU and GABA transmission contribute to opiate antinociception. [source] 1-Methyl-4-phenylpridinium (MPP+)-induced functional run-down of GABAA receptor-mediated currents in acutely dissociated dopaminergic neuronsJOURNAL OF NEUROCHEMISTRY, Issue 1 2002Jie Wu Abstract We have evaluated GABAA receptor function during treatment of 1-methyl-4-phenylpridinium (MPP+) using patch-clamp perforated whole-cell recording techniques in acutely dissociated dopaminergic (DAergic) neurons from rat substantia nigra compacta (SNc). ,-Aminobutyric acid (GABA), glutamate or glycine induced inward currents (IGABA, IGlu, IGly) at a holding potential (VH) of ,45 mV. The IGABA was reversibly blocked by the GABAA receptor antagonist, bicuculline, suggesting that IGABA is mediated through the activation of GABAA receptors. During extracellular perfusion of MPP+ (1,10 ,m), IGABA, but neither IGlu nor IGly, declined (termed run-down) with repetitive agonist applications, indicating that the MPP+ -induced IGABA run-down occurred earlier than IGly or IGlu under our experimental conditions. The MPP+ -induced IGABA run-down can be prevented by a DA transporter inhibitor, mazindol, and can be mimicked by a metabolic inhibitor, rotenone. Using conventional whole-cell recording with different concentrations of ATP in the pipette solution, IGABA run-down can be induced by decreasing intracellular ATP concentrations, or prevented by supplying intracellular ATP, indicating that IGABA run-down is dependent on intracellular ATP concentrations. A GABAA receptor positive modulator, pentobarbital (PB), potentiated the declined IGABA and eliminated IGABA run-down. Corresponding to these patch-clamp data, tyrosine hydroxylase (TH) immunohistochemical staining showed that TH-positive cell loss was protected by PB during MPP+ perfusion. It is concluded that extracellular perfusion of MPP+ induces a functional run-down of GABAA receptors, which may cause an imbalance of excitation and inhibition of DAergic neurons. [source] Dilazep, a nucleoside transporter inhibitor, modulates cell cycle progression and DNA synthesis in rat mesangial cells in vitroCELL PROLIFERATION, Issue 1 2000T. Sakumura The direct effects of the nucleoside transporter inhibitor dilazep on the cell cycle of mesangial cells have not before been investigated. The purpose of this study was to elucidate whether dilazep can inhibit the proliferation of mesangial cells and how it interferes with the cell cycle of these cells. DNA histograms were used and BrdUrd uptake rate was measured by flow cytometry. There was no significant difference in the cell numbers among the untreated group and the 10,5M, 10,6M or 10,7M dilazep-treated groups at 24 h of incubation. However, at 48 and 72 h, the cell numbers in the dilazep-treated groups were significantly lower compared with that of the untreated group (P0.005). The DNA histograms of cultured rat mesangial cells at 12, 24, and 48 h of incubation with 10,5 M dilazep showed that the ratio of the S phase population in the dilazep-treated group decreased by 2.2% at 12 h, by 9.6% at 24 h, and by 18.9% at 48 h compared with the untreated group. The ratio of the G0/G1 phase population in the dilazep-treated group significantly increased: 6.8% at 12h (P 0.05), 13.9% at 24 h (P 0.001), and 76.5% at 48 h (P 0.001) compared with the untreated group. A flow cytometric measurement of bivariate DNA/BrdUrd distribution demonstrated that the DNA synthesis rate in the S phase decreased after 6 h (P 0.005) and 12 h (P 0.05) of incubation compared with the untreated group. These results suggest that dilazep inhibits the proliferation of cultured rat mesangial cells by suppressing the G1/S transition by prolonging G2/M and through decreasing the DNA synthesis rate [source] Increase in multidrug transport activity is associated with oocyte maturation in sea stars,DEVELOPMENT GROWTH & DIFFERENTIATION, Issue 9 2006Troy A. Roepke In this study, we report on the presence of efflux transporter activity before oocyte maturation in sea stars and its upregulation after maturation. This activity is similar to the multidrug resistance (MDR) activity mediated by ATP binding cassette (ABC) efflux transporters. In sea star oocytes the efflux activity, as measured by exclusion of calcein-am, increased two-fold 3 h post-maturation. Experiments using specific and non-specific dyes and inhibitors demonstrated that the increase in transporter activity involves an ABCB protein, P-glycoprotein (P-gp), and an ABCC protein similar to the MDR-associated protein (MRP)-like transporters. Western blots using an antibody directed against mammalian P-gp recognized a 45 kDa protein in sea star oocytes that increased in abundance during maturation. An antibody directed against sea urchin ABCC proteins (MRP) recognized three proteins in immature oocytes and two in mature oocytes. Experiments using inhibitors suggest that translation and microtubule function are both required for post-maturation increases in transporter activity. Immunolabeling revealed translocation of stored ABCB proteins to the plasma cell membrane during maturation, and this translocation coincided with increased transport activity. These MDR transporters serve protective roles in oocytes and eggs, as demonstrated by sensitization of the oocytes to the maturation inhibitor, vinblastine, by MRP and PGP-specific transporter inhibitors. [source] Bivalent phenethylamines as novel dopamine transporter inhibitors: evidence for multiple substrate-binding sites in a single transporterJOURNAL OF NEUROCHEMISTRY, Issue 6 2010Kyle C. Schmitt J. Neurochem. (2010) 112, 1605,1618. Abstract Bivalent ligands , compounds incorporating two receptor-interacting moieties linked by a flexible chain , often exhibit profoundly enhanced binding affinity compared with their monovalent components, implying concurrent binding to multiple sites on the target protein. It is generally assumed that neurotransmitter sodium symporter (NSS) proteins, such as the dopamine transporter (DAT), contain a single domain responsible for recognition of substrate molecules. In this report, we show that molecules possessing two substrate-like phenylalkylamine moieties linked by a progressively longer aliphatic spacer act as progressively more potent DAT inhibitors (rather than substrates). One compound bearing two dopamine (DA)-like pharmacophoric ,heads' separated by an 8-carbon linker achieved an 82-fold gain in inhibition of [3H] 2,-carbomethoxy-3,-(4-fluorophenyl)-tropane (CFT) binding compared with DA itself; bivalent compounds with a 6-carbon linker and heterologous combinations of DA-, amphetamine- and ,-phenethylamine-like heads all resulted in considerable and comparable gains in DAT affinity. A series of short-chain bivalent-like compounds with a single N -linkage was also identified, the most potent of which displayed a 74-fold gain in binding affinity. Computational modelling of the DAT protein and docking of the two most potent bivalent (-like) ligands suggested simultaneous occupancy of two discrete substrate-binding domains. Assays with the DAT mutants W84L and D313N , previously employed by our laboratory to probe conformation-specific binding of different structural classes of DAT inhibitors , indicated a bias of the bivalent ligands for inward-facing transporters. Our results strongly indicate the existence of multiple DAT substrate-interaction sites, implying that it is possible to design novel types of DAT inhibitors based upon the ,multivalent ligand' strategy. [source] Identification of dopamine transporter in bovine pineal gland using [3H]GBR 12935JOURNAL OF PINEAL RESEARCH, Issue 1 2003P. Govitrapong Abstract: The mammalian pineal gland contains several neurotransmitters and receptors for amino acids, biogenic amines, and peptides. Some of these, such as D1 and D2 dopamine receptors, have been previously identified and characterized in the bovine pineal gland by our group. As a matter of fact, the density of D1 dopamine receptors in the pineal gland is higher than that of corpus striatum, suggesting that this organ must possess a high affinity dopamine transporter, which has been identified in this study by using [3H]GBR 12935 as a radiological ligand and nomifensine to determine non-specific binding. The association rate of [3H]GBR 12935 binding to the pineal membrane was examined as a function of time. The binding reached equilibrium within 45 min of incubation at 25°C. The specific binding was reversible and saturable. The dissociation time course of the specific [3H]GBR 12935 binding from the bovine pineal membrane was also studied. A half-life (t1/2) of 14-min was obtained. The saturation analysis of the [3H]GBR 12935 binding revealed a dissociation equilibrium constant (Kd) of 6.0 ± 0.9 nm and a receptor density (Bmax) of 6.9 ± 0.3 pmol/mg protein, which were comparable with those values obtained from bovine striatum and frontal cortex. In competitive experiments, the concentrations of drugs required to inhibit 50% of the binding (IC50) were in descending order GBR 12909 > GBR 12935 > trans -flupenthixol > nomifensine > cis -flupenthixol > amitriptyline > imipramine > desipramine > dopamine > fluoxetine > fuvoxamine > d -amphetamine. However, nisoxetine, SCH 23390, norepinephrine, and serotonin were unable to displace [3H]GBR binding. These results show that drugs capable of blocking dopamine transporters were effective in displacing [3H]GBR binding; whereas specific norepinephrine and serotonin transporter inhibitors were less effective or ineffective. In addition, the dopamine transporter is ion-dependent as sodium increased [3H]GBR binding in a concentration related manner. These results indicate that a high affinity dopamine transporter exists in the bovine pineal, which may exhibit circadian periodicity, and whose physiological functions need to be delineated and characterized in future investigations. [source] Cellular efflux of auxin catalyzed by the Arabidopsis MDR/PGP transporter AtPGP1THE PLANT JOURNAL, Issue 2 2005Markus Geisler Summary Directional transport of the phytohormone auxin is required for the establishment and maintenance of plant polarity, but the underlying molecular mechanisms have not been fully elucidated. Plant homologs of human multiple drug resistance/P-glycoproteins (MDR/PGPs) have been implicated in auxin transport, as defects in MDR1 (AtPGP19) and AtPGP1 result in reductions of growth and auxin transport in Arabidopsis (atpgp1, atpgp19), maize (brachytic2) and sorghum (dwarf3). Here we examine the localization, activity, substrate specificity and inhibitor sensitivity of AtPGP1. AtPGP1 exhibits non-polar plasma membrane localization at the shoot and root apices, as well as polar localization above the root apex. Protoplasts from Arabidopsis pgp1 leaf mesophyll cells exhibit reduced efflux of natural and synthetic auxins with reduced sensitivity to auxin efflux inhibitors. Expression of AtPGP1 in yeast and in the standard mammalian expression system used to analyze human MDR-type proteins results in enhanced efflux of indole-3-acetic acid (IAA) and the synthetic auxin 1-naphthalene acetic acid (1-NAA), but not the inactive auxin 2-NAA. AtPGP1-mediated efflux is sensitive to auxin efflux and ABC transporter inhibitors. As is seen in planta, AtPGP1 also appears to mediate some efflux of IAA oxidative breakdown products associated with apical sites of high auxin accumulation. However, unlike what is seen in planta, some additional transport of the benzoic acid is observed in yeast and mammalian cells expressing AtPGP1, suggesting that other factors present in plant tissues confer enhanced auxin specificity to PGP-mediated transport. [source] Characterization of an anandamide degradation system in prostate epithelial PC-3 cells: synthesis of new transporter inhibitors as tools for this studyBRITISH JOURNAL OF PHARMACOLOGY, Issue 3 2004Lidia Ruiz-Llorente The response of anandamide is terminated by a carrier-mediated transport followed by degradation catalyzed by the cloned enzyme fatty acid amidohydrolase (FAAH). In this study, we provide biochemical data showing an anandamide uptake process and the expression of FAAH in human prostate. Anandamide was accumulated in PC-3 cells by a saturable and temperature-dependent process. Kinetic studies of anandamide uptake, determined in the presence of cannabinoid and vanilloid antagonists, revealed apparent parameters of KM=4.7±0.2 ,M and Vmax=3.3±0.3 pmol min,1 (106 cells),1. The accumulation of anandamide was moderately inhibited by previously characterized anandamide transporter inhibitors (AM404, UCM707 and VDM11) but was unaffected by inhibitors of other lipid transport systems (phloretin or verapamil) and moderately affected by the FAAH inhibitor methyl arachidonyl fluorophosphonate. The presence of FAAH in human prostate epithelial PC-3 cells was confirmed by analyzing its expression by Western blot and measuring FAAH activity. To further study the structural requirements of the putative carrier, we synthesized a series of structurally different compounds 1,8 and evaluated their capacity as uptake inhibitors. They showed different inhibitory capacity in PC-3 cells, with (9Z,12Z)- N -(fur-3-ylmethyl)octadeca-9,12-dienamide (4, UCM119) being the most efficacious, with maximal inhibition and IC50 values of 49% and 11.3±0.5 ,M, respectively. In conclusion, PC-3 cells possess a complete inactivation system for anandamide formed by an uptake process and the enzyme FAAH. These results suggest a possible physiological function of anandamide in the prostate, reinforcing the role of endocannabinoid system as a neuroendocrine modulator. British Journal of Pharmacology (2004) 141, 457,467. doi:10.1038/sj.bjp.0705628 [source] | ||||||||||||||||