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1 idrug resistance transporter P-glycoprotein (P-gp).
2 also a potent stimulator of P-glycoprotein (P-gp).
3 ultidrug resistance protein, P-glycoprotein (P-gp).
4 mical assays with ABCC10 and P-glycoprotein (P-gp).
5 esistance-linked transporter P-glycoprotein (P-gp).
6 sidue linker that connects the two halves of P-gp.
7 ning and closing motion of the two halves of P-gp.
8 ernalization, and proteasomal degradation of P-gp.
9 tions in the 12 TM segments (223 mutants) of P-gp.
10 t deleting NBD2 causes misprocessing of only P-gp.
11 s a linchpin for assembly and trafficking of P-gp.
12 nse via the multidrug transporter ABCB1/MDR1 p-gp.
13 s the most potent inhibitor and corrector of P-gp.
14 maintained assembly of the drug transporter p-gp.
15 hat target the nucleotide-binding domains of P-gp.
16 domains but not the drug-binding domains of P-gp.
17 that is critical for folding and activity of P-gp.
18 ds were found that inhibit ATP hydrolysis by P-gp.
19 aches for identifying specific inhibitors of P-gp.
20 s in stable epithelial monolayers expressing P-gp.
21 r 28 within the drug-binding pocket of human P-gp.
22 to similar extents relative to inward-facing P-gp.
23 ve of 8 (compound 24) was not transported by P-gp.
24 ctionalization, can modulate the function of P-gp.
25 one of the compounds was not transported by P-gp.
26 an embryonic kidney-293 cells overexpressing P-gp.
27 elected subline KB-8-5-11 that overexpresses P-gp.
28 structure of paclitaxel (Taxol)-bound human P-gp.
29 lity or brain penetration may be affected by P-gp.
30 iation might be mediated via P-glycoprotein (P-gp), a major pathway for clarithromycin metabolism.
33 llin and in particular, the association with P-gp, a major pathway for clarithromycin metabolism.
34 st BCRP and screened against P-glycoprotein (P-gp, ABCB1) and multidrug resistance protein 1 (MRP1, A
35 tant because drug pumps like P-glycoprotein (P-gp, ABCB1) confer multidrug resistance and mutant ABC
37 The multidrug transporter P-glycoprotein (P-gp, ABCB1) is an ATP-dependent pump that mediates the
38 e 1 (Glut-1), and permeability-glycoprotein (p-GP, ABCB1) were similarly significantly higher in the
41 -metoclopramide transport by P-glycoprotein (P-gp; ABCB1) and the breast cancer resistance protein (B
43 of the membrane transporter proteins ABCB1 (P-gp), ABCG2 (BCRP), and ABCC1 (MRP1), which are involve
44 ndividuals with genetically determined lower P-gp activity had a significantly increased risk of CV h
45 This systems pharmacology study investigated P-gp activity in mice according to organ, sex, feeding s
48 gle-nucleotide polymorphisms associated with P-gp activity were evaluated (rs1045642 and rs1128503 -A
49 (rhythm-adjusted mean) of ileum and hepatic P-gp activity were higher in males as compared to female
51 ves can exhibit varied modulatory effects on P-gp activity, depending on structural functionalization
54 sistent with the uptake function, the mutant P-gp also hypersensitizes HeLa cells to Rh123 by 2- to 2
56 unds were assessed for their potency against P-gp and another transporter (MRP1), for their apparent
57 cPLA2 inhibition prevents overexpression of P-gp and BCRP at the blood-brain barrier in rats after s
64 at 0.1 - 100 nM rapidly (in 1-2 h) inhibited P-gp and BCRP transport activities at the BBB through di
68 Biochemical assays of the ATPase activity of P-gp and by photolabeling P-gp with its transport substr
70 mical and biophysical studies conducted with P-gp and its orthologs, or from structures of other ATP-
71 nd restored sensitivity toward daunorubicin (P-gp and MRP1) and SN-38 (BCRP) in A2780/ADR (P-gp), H69
72 s (99m)Tc-sestamibi is a known substrate for P-gp and MRP1, which are established cellular drug efflu
73 aspects of ligand interactions with purified P-gp and other ATP-binding cassette transporters that tr
74 g efflux pumps, ABCB1 (also known as MDR1 or P-gp) and ABCC1 (also known as MRP1), whose inhibition r
75 tein 1 (MRP1) and permeability glycoprotein (P-gp) and assess the repeatability of the inhaled (99m)T
76 f efflux transporters (e.g., P-glycoprotein (P-gp) and breast cancer resistance protein (Bcrp)) at th
77 f efflux transporters, e.g., P-glycoprotein (P-gp) and breast cancer resistance protein (BCRP), at th
79 DR, resulted in higher brain P-glycoprotein (P-gp) and lower soluble Abeta levels, effects negated wi
80 ession, including permeability glycoprotein (P-gp) and multidrug resistance-associated protein 1 (MRP
81 gp), LLC-MDR1-3H (expresses common haplotype P-gp), and LLC-MDR1-3HA (a mutant that carries a differe
84 ene-silencing siRNAs (Bcl-2, P-glycoprotein [P-gp], and survivin) via encapsulation and surface coord
86 NBD2 transmission interface severely reduced P-gp assembly while changes to the equivalent residues i
87 only accumulates in tumours but also reduces P-gp at a SipA dose significantly lower than free SipA.
90 ld type, the linker mutant, and a methylated P-gp at up to 3.3 A resolution display significant movem
92 itors that specifically targets and inhibits P-gp ATP hydrolysis while not being transported by the p
97 jan horse approach to therapeutic evasion of P-gp based on a reversibly linked combination of HIV rev
98 ivated radiotracer for functional imaging of P-gp/BCRP activity with positron emission tomography (PE
99 evelopment of prodrug tracers for imaging of P-gp/BCRP function in vivo but also highlight some chall
101 l interactions of investigational drugs with P-gp be explored, often this information does not enter
104 cing apo P-gp, pre-hydrolytic (E552Q/E1197Q) P-gp bound to Mg(+2)-ATP, and outward-facing P-gp bound
105 t activity and expression of P-glycoprotein (P-gp), breast cancer resistance protein (BCRP), and mult
108 ere is no high resolution structure of human P-gp, but homology models based on the crystal structure
110 ymorphisms (SNPs) of the ABCB1 gene encoding P-gp (C1236T, G2677T/A, and C3435T) on digoxin pharmacok
111 e transport substrate and nucleotides, human P-gp can exist in both open [nucleotide binding domains
112 ansmembrane helices (TMHs) 6 and 12 of human P-gp connect the transmembrane domains with its nucleoti
113 findings suggest that increased activity of P-gp could be responsible for increased hepatic cyclospo
114 gets within the blood-brain barrier to limit P-gp degradation in AD and improve Abeta brain clearance
115 nues within the blood-brain barrier to limit P-gp degradation in Alzheimer's disease and improve Abet
119 on about the conformational changes in human P-gp during the ATP hydrolysis cycle has not been direct
120 We also probe conformational states of human P-gp during the catalytic cycle, and demonstrate that, f
125 ty of the efflux transporter P-glycoprotein (P-gp) encoded by ABCB1 in human hepatoma cells (HepG2) w
126 The drug efflux function of P-glycoprotein (P-gp) encoded by MDR1 can be influenced by genetic polym
128 tance in cytotoxicity assay to paclitaxel in P-gp-expressing SW620/Ad300 and HEK/ABCB1 cell lines.
130 st (Lexiscan) rapidly and potently decreased P-gp expression and function in a time-dependent and rev
131 PGES-1 inhibitor, prevented up-regulation of P-gp expression and transport activity in capillaries ex
132 ochemical assessment (grade 0-3) of MRP1 and P-gp expression in the lung by using parametric and nonp
134 d a vitamin D-deficient diet, lower cerebral P-gp expression was observed, but levels were restored o
139 -throughput screen to identify substrates of P-gp from a series of chemical libraries, testing a tota
140 erties that offer reliable quantification of P-gp function at the blood-brain barrier in a pharmacolo
141 e resulted in rapid and potent inhibition of P-gp function in brain endothelial cells, as determined
144 as a model of CNS drug, we demonstrated that P-gp function not only reduces influx but also mediates
145 "silent" polymorphisms significantly change P-gp function, which would be expected to affect interin
147 TPase activity at 12.5 muM without affecting P-gp function; moreover, they resensitized ABCC10-transf
148 omplexes efficiently induced P-glycoprotein (P-gp) gene silencing in the human ovarian adenocarcinoma
149 -gp and MRP1) and SN-38 (BCRP) in A2780/ADR (P-gp), H69AR (MRP1), and MDCK II BCRP (BCRP) cells.
150 ion of ABC transporters like P-glycoprotein (P-gp) has been correlated with resistances in cancer che
153 anocarba nucleosides inhibit the activity of P-gp; however, a fluorescent derivative of one of the co
154 entrations of tariquidar did not fully block P-gp; however, higher doses of tariquidar would likely b
155 ODIPY)-verapamil transport mediated by human P-gp (IC(50) 2.4 +/- 0.6 uM); however, the BODIPY-conjug
156 Sex-specific circadian changes were found in P-gp ileum mRNA and protein levels, circadian amplitudes
157 st to previous reports showing that trapping P-gp in a closed conformation highly activated ATPase ac
158 M and stimulated the basal ATP hydrolysis of P-gp in a concentration-dependent manner (EC50 ATPase =
161 ulated spontaneously for the aim to suppress P-gp in advance by the earlier released TET in cancer ce
163 hesis and drug efflux activity of ABCB1/MDR1 p-gp in murine and human CD11b(+)-myeloid cells, thus in
164 rt we compared the biochemical properties of P-gp in native membranes, detergent micelles, and when r
166 g drug development for inhibiting or evading P-gp in the context of our improved understanding of the
169 ween the miR-221 network and P-glycoprotein (P-gp) in doxorubicin-induced drug resistance of leukemia
171 er is the efflux transporter P-glycoprotein (P-gp) in the luminal plasma membrane of the brain capill
172 multidrug efflux transporter P-glycoprotein (P-gp) in three distinct conformational states: predomina
173 hippocampus in which the VDR is abundant and P-gp induction is greatest after 1,25(OH)2D3 treatment,
175 ates to reverse multidrug resistance through P-gp inhibition and to mitigate the off-target pharmacol
176 intravenous tariquidar, resulted in greater P-gp inhibition at the human blood-brain barrier than de
177 ed analogues were further analyzed for their P-gp inhibition constant, intrinsic toxicity, and potenc
179 of metoclopramide (3 mg/kg), with or without P-gp inhibition using intravenous tariquidar (8 mg/kg).
180 d tumors based on the synergistic effects of P-gp inhibition, enhanced endocytosis and intracellular
181 : injected under baseline conditions without P-gp inhibition, injected 1 h after intravenous tariquid
182 cells were also tested in the presence of a P-gp inhibitor (tariquidar) to assess reversibility of t
184 sized 21 derivatives of the third-generation P-gp inhibitor HM30181, which is structurally related to
186 nidine to a polymer will permit its use as a P-gp inhibitor through mitigation of its distribution in
193 This study, conducted in humans, examined 2 P-gp inhibitors (tariquidar, a known inhibitor, and disu
196 association at 0-14 days modified by use of P-gp inhibitors or substrates (interaction p-value: 0.02
197 pe and haplotype P-gp respond differently to P-gp inhibitors that block efflux of rhodamine 123 or mi
198 his hit compound represents a novel class of P-gp inhibitors that specifically targets and inhibits P
200 ydrogen bond (IMHB) which allows reaching of P-gp inhibitory activity at the submicromolar IC50 level
212 The drug efflux transporter P-glycoprotein (P-gp) is highly expressed on brain endothelial cells and
213 binding cassette transporter P-glycoprotein (P-gp) is known to be expressed at barrier sites, where i
214 binding cassette transporter P-glycoprotein (P-gp) is known to limit both brain penetration and oral
217 aspects for developing potent and selective P-gp ligands have been highlighted, providing a solid st
220 and termed LLC-MDR1-WT (expresses wild-type P-gp), LLC-MDR1-3H (expresses common haplotype P-gp), an
221 ained its ability to inhibit the function of P-gp (log IC(50) of 4.20 nM for quinidine and 4.61 nM fo
222 eterozygotes or those homozygous for the non-P-gp-lowering allele (rs1045642 AA: HR 1.39, 95% CI 1.20
224 efflux transporters such as P-glycoprotein (P-gp; MDR1, ABCB1), significantly less is known regardin
225 ing potency and selectivity while minimizing P-gp mediated efflux was fine-tuning of hydrogen bond ac
231 he potency of progesterone as a modulator of P-gp-mediated multidrug resistance was established by es
233 secretion effector, SipA, is responsible for P-gp modulation through a pathway involving caspase-3.
236 ug) for targeting permeability glycoprotein (P-gp), multidrug resistant protein 1 (MRP-1), B-cell lym
238 s regard, understanding the interaction with P-gp of drug entities in development is important and hi
243 nsport in monolayers of multidrug-resistant, P-gp-overexpressing MDCKII-MDR1 cells, and for their col
246 in-AM transport, the linker-shortened mutant P-gp possesses basal ATPase activity and binds ATP only
247 onal states: predominantly inward-facing apo P-gp, pre-hydrolytic (E552Q/E1197Q) P-gp bound to Mg(+2)
248 d proteasome-dependent degradation, reducing P-gp protein expression and transport activity in isolat
249 ospholipase A2, COX-2, and mPGES-1 increases P-gp protein expression and transport activity levels.
250 ved that only Abeta40 triggered reduction of P-gp protein expression and transport activity levels; t
251 ice revealed endogenous circadian rhythms of P-gp protein expression with a shorter period, larger am
252 e ubiquitin-proteasome system, and monitored P-gp protein expression, transport activity, and P-gp-ub
255 dentify the steps involved in Abeta-mediated P-gp reduction, we inhibited protein ubiquitination, pro
256 the drug efflux behavior of P-glycoprotein (P-gp) remains a prominent challenge in cancer treatment.
257 ort assays show that wild-type and haplotype P-gp respond differently to P-gp inhibitors that block e
260 trate that the inhibition of P-glycoprotein (P-gp) significantly increases brain penetration of piogl
261 rease brain uptake of the avid and selective P-gp substrate (11)C-N-desmethyl-loperamide (dLop) while
262 ther PARP inhibitors, but pamiparib is not a P-gp substrate and shows excellent drug metabolism and p
264 rameter estimates to refine PK models of any P-gp substrate to account for sex, feeding and circadian
265 nd liver concentrations of talinolol, a pure P-gp substrate, significantly differed according to sex,
266 of IS needed higher doses of cyclosporin, a P-gp substrate, to obtain the cyclosporin target blood c
272 multidrug resistant protein, P-glycoprotein (P-gp), suggesting an active drug efflux pump as a potent
273 Owing to the enhanced cellular uptake and P-gp suppression mediated by TET, significantly more PTX
275 we focus on the transporter P-glycoprotein (P-gp) that is partly responsible for limited ASD brain u
276 interaction between the hybrid compounds and P-gp, the main excretory transporter of the BBB, was fou
277 cs often selects for cells which overexpress P-gp, thereby creating populations of cancer cells resis
278 y provide new insight on the contribution of P-gp to the variability of response to CNS drugs between
279 demonstrate that, following ATP hydrolysis, P-gp transitions through a complete closed conformation
286 y signaling steps underlying seizure-induced P-gp up-regulation and suggest that mPGES-1 inhibitors c
291 tify novel compounds that are transported by P-gp, we developed a high-throughput screen using the KB
292 r is fundamental for functionally decreasing P-gp, we engineered a nanoparticle mimic that both overc
293 Similar to the efflux function of wild-type P-gp, we found that uptake by the 14A mutant is ATP hydr
294 f these helices in the transport function of P-gp, we substituted a group of 14 conserved residues (s
295 umour growth with a concomitant reduction in P-gp when used with an existing chemotherapeutic drug (t
296 Compound 28 inhibited the photolabeling of P-gp with [(125)I]-iodoarylazidoprazosin with IC50 = 0.7
298 ATPase activity of P-gp and by photolabeling P-gp with its transport substrate [(125)I]-iodoarylazido
299 multiforme, blocking the efflux function of P-gp with verapamil enhanced the therapeutic efficiency
300 -close motion alters the surface topology of P-gp within the drug-binding pocket, providing a mechani