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Query: UNIPROT:P33527 (
ABCC1
)
1,164
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The 190 kDa multidrug resistance protein 1 (MRP1;
ABCC1
) is comprised of three membrane spanning domains (MSDs) and two nucleotide binding domains (NBDs) configured MSD1-MSD2-NBD1-MSD3-NBD2. MRP1 overexpression in tumor cells results in an ATP-dependent efflux of many oncolytic agents and arsenic and antimony oxyanions. MRP1 also transports GSSG and
GSH
as well as conjugated organic anions, including leukotriene C(4) and 17beta-estradiol 17-(beta-D-glucuronide) and certain xenobiotics in association with
GSH
. Previous studies have shown that portions of MSD1 and the cytoplasmic loop (CL3) connecting it to MSD2 are important for MRP1 transport function. In the present study, Cys residues at positions 43, 49, 85, 148, and 190 in MSD1 and positions 208 and 265 in CL3 were mutated to Ala and Ser, and the effects on protein expression, plasma membrane localization, trypsin sensitivity, organic anion transport, and drug resistance properties were investigated. Confocal microscopy showed that 11 of 14 mutants displayed significant levels of nonplasma membrane-associated MRP1. Most mutant proteins were also more resistant to trypsin proteolysis than wild-type MRP1. All Cys mutants transported organic anions (0.5-1.5-fold wild-type MRP1 activity), and cells expressing Ser-substituted but not Ala-substituted Cys43 and Cys265 MRP1 mutants exhibited a 2.5-fold decrease and a 3-fold increase in arsenite resistance, respectively; Cys43Ser MRP1 also conferred lower levels of vincristine resistance. These results indicate that certain Cys residues in the NH(2) proximal region of MRP1 can be important for its structure and selected transport activities.
...
PMID:Functional and structural consequences of cysteine substitutions in the NH2 proximal region of the human multidrug resistance protein 1 (MRP1/ABCC1). 1273 62
The active outward translocation of phospholipid analogues from the inner to the outer membrane leaflet of human erythrocytes by the multi-drug resistance protein MRP1 (
ABCC1
) depends on intracellular reduced glutathione (
GSH
). Entrapment of ATP and increasing amounts of
GSH
inside resealed ghosts prepared from erythrocytes resulted in an up to six-fold increase of the translocation rate. Entrapped oxidized glutathione (GSSG) acted inhibitory but produced stimulation after addition of the disulphide-reducing reagent dithioerythritol. Modification of
GSH
by esterification of the C-terminal carboxylate of Gly, removal of the N-terminal Glu or substitution of the SH group by an anionic S-dicarboxyethyl or sulphonate group abolished stimulation. The effect of S-alkylation of
GSH
depended on the length of the alkyl group. S-methyl
GSH
was somewhat more effective than
GSH
, but maximal stimulation was similar. S-butyl
GSH
acted poorly stimulatory while S-hexyl
GSH
was essentially ineffective. Analyses of the kinetic data of translocation revealed K(m) values for
GSH
and methyl-
GSH
of respectively 7.4 +/- 2.4 and 4.9 +/- 1.1 mmol l(-1). At high
GSH
levels and defined constant ATP levels using an ATP-regenerating system, the Km for ATP of the outward translocation was 0.16 +/- 0.02 mmol l(-1). In the same system lacking
GSH
, the Km for ATP of the inward translocation by the aminophospholipid flippase was 0.53 +/- 0.23 mmol l(-1).
...
PMID:ATP and GSH dependence of MRP1-mediated outward translocation of phospholipid analogs in the human erythrocyte membrane. 1457 45
Multidrug resistance proteins (MRPs) are ATP-dependent export pumps that mediate the export of organic anions.
ABCC1
(MRP1), ABCC2 (MRP2) and ABCC3 (MRP3) are all able to facilitate the efflux of anionic conjugates including glutathione (
GSH
), glucuronide and sulfate conjugates of xenobiotics and endogenous molecules. Earlier studies showed that ABCC4 functions as an ATP-driven export pump for cyclic AMP and cyclic GMP, as well as estradiol-17-beta-D-glucuronide. However, it was unclear if other conjugated metabolites can be transported by ABCC4. Hence in this study, a fluorescent substrate, bimane-glutathione (bimane-GS) was used to further examine the transport activity of ABCC4. Using cells stably overexpressing ABCC4, this study shows that ABCC4 can facilitate the efflux of the glutathione conjugate, bimane-glutathione. Bimane-glutathione efflux increased with time and >85% of the conjugate was exported after 15min. This transport was abolished in the presence of 2.5microM carbonylcyanide m-chlorophenylhydrasone (CCCP), an uncoupler of oxidative phosphorylation. Inhibition was also observed with known inhibitors of MRP transporters including benzbromarone, verapamil and indomethacin. In addition, 100microM methotrexate, an ABCC4 substrate or 100microM 6-thioguanine (6-TG), a compound whose monophosphate metabolite is an ABCC4 substrate, reduced efflux by >40%. A concentration-dependent inhibition of bimane-glutathione efflux was observed with 1-chloro-2,4-dinitrobenzene (CDNB) which is metabolized intracellularly to the glutathione conjugate, 2,4-dinitrophenyl-glutathione (DNP-GS). The determination that ABCC4 can mediate the transport of glucuronide and glutathione conjugates indicates that ABCC4 may play a role in the cellular extrusion of Phase II detoxification metabolites.
...
PMID:Multidrug resistance protein 4 (MRP4/ABCC4) mediates efflux of bimane-glutathione. 1464 90
Drug resistance is a major impediment in the treatment of cancer patients receiving single or multiple drug treatment. Efforts to reverse drug resistance of tumor cells have not been successful. In recent years, considerable emphasis has been placed on understanding the underlying mechanisms that confer drug resistance. The expression of the multidrug resistance protein 1 (MRP1 or
ABCC1
) in cancer cells has been shown to confer resistance to diverse classes of anti-cancer drugs. MRP1 is a member of the ATP-binding cassette (ABC) family whose function, in tumor cells, is to reduce drug accumulation through energized drug efflux. To learn more about the functions of MRP1 in tumor drug resistance, knowledge of the protein binding characteristics and the location of its binding sites are essential. Photoaffinity labeling (PAL) has emerged as a leading technique that can rapidly shed light on a protein's drug binding characteristics and ultimately drug binding domains. Several MRP1-specific photoreactive probes have been developed. PAL of MRP1 was first demonstrated with the quinoline-based drug, IAAQ. Other studies showed that the high affinity endogenous substrate of MRP1, LTC(4), has intrinsic photoreactive properties and binds within both N- and C-terminal domains of MRP1. LTC(4) is conjugated to glutathione (
GSH
), a property common to several MRP1 substrates. In addition, several unconjugated drugs have been identified that interact with MRP1: [(3)H]VF-13,159, IAAQ, IACI and IAARh123. Mapping studies showed that IACI and IAARh123 bind two sites within transmembrane (TM) regions 10-11 and 16-17 of MRP1. Interestingly, the
GSH
-dependent PAL of [(125)I]azidoAG-A and [(125)I]LY475776 occurs within, or proximal to TM 16-17. The PAL with several analogs of
GSH
, IAAGSH and azidophenacyl-[(35)S]
GSH
found to interact specifically with MRP1 within TM 10-11 and TM 16-17 in addition to binding two cytoplasmic regions in MRP1, L0 and L1. This review focuses on the use of PAL for studying MRP1 interactions with various drugs and cell metabolites. Furthermore, knowledge of MRP1 drug binding domains, as identified by PAL with various photoreactive drug analogs, provides an important first step towards more detailed analyses of MRP1 binding domains.
...
PMID:Drug binding domains of MRP1 (ABCC1) as revealed by photoaffinity labeling. 1475 9
Inorganic arsenic is an established human carcinogen, but its metabolism is incompletely defined. The ATP binding cassette protein, multidrug resistance protein (MRP1/
ABCC1
), transports conjugated organic anions (e.g. leukotriene C(4)) and also co-transports certain unmodified xenobiotics (e.g. vincristine) with glutathione (
GSH
). MRP1 also confers resistance to arsenic in association with
GSH
; however, the mechanism and the species of arsenic transported are unknown. Using membrane vesicles prepared from the MRP1-overexpressing lung cancer cell line, H69AR, we found that MRP1 transports arsenite (As(III)) only in the presence of
GSH
but does not transport arsenate (As(V)) (with or without
GSH
). The non-reducing
GSH
analogs L-gamma-glutamyl-L-alpha-aminobutyryl glycine and S-methyl
GSH
did not support As(III) transport, indicating that the free thiol group of
GSH
is required.
GSH
-dependent transport of As(III) was 2-fold higher at pH 6.5-7 than at a more basic pH, consistent with the formation and transport of the acid-stable arsenic triglutathione (As(GS)(3)). Immunoblot analysis of H69AR vesicles revealed the unexpected membrane association of
GSH
S-transferase P1-1 (GSTP1-1). Membrane vesicles from an MRP1-transfected HeLa cell line lacking membrane-associated GSTP1-1 did not transport As(III) even in the presence of
GSH
but did transport synthetic As(GS)(3). The addition of exogenous GSTP1-1 to HeLa-MRP1 vesicles resulted in
GSH
-dependent As(III) transport. The apparent K(m) of As(GS)(3) for MRP1 was 0.32 microM, suggesting a remarkably high relative affinity. As(GS)(3) transport by MRP1 was osmotically sensitive and was inhibited by several conjugated organic anions (MRP1 substrates) as well as the metalloid antimonite (K(i) 2.8 microM). As(GS)(3) transport experiments using MRP1 mutants with substrate specificities differing from wild-type MRP1 suggested a commonality in the substrate binding pockets of As(GS)(3) and leukotriene C(4). Finally, human MRP2 also transported As(GS)(3). In conclusion, MRP1 transports inorganic arsenic as a tri-
GSH
conjugate, and GSTP1-1 may have a synergistic role in this process.
...
PMID:Arsenic transport by the human multidrug resistance protein 1 (MRP1/ABCC1). Evidence that a tri-glutathione conjugate is required. 1516 12
The multiple drug resistance protein 1 (MRP1 or
ABCC1
) transports anticancer drugs and normal cell metabolites. Leucotriene C(4) (LTC(4)) is one of the highest affinity substrates of MRP1. In this study, we have synthesized and characterized a novel photoreactive azido analogue of LTC(4) (AALTC(4)). The specificity of AALTC(4) binding to MRP1 was confirmed using an LTC(4)-specific monoclonal antibody. Moreover, binding with radioiodinated [(125)I]AALTC(4) (or IAALTC(4)) to MRP1 was dramatically competed with unmodified LTC(4) and to a lesser degree by glutathione (
GSH
). Oxidized glutathione (GSSG) slightly increased IAALTC(4) binding to MRP1, while MK571, verapamil, and vincristine inhibited IAALTC(4) binding to MRP1. Using AALTC(4) together with a panel of epitope-specific and LTC(4)-specific monoclonal antibodies, we identified LTC(4) binding sites in MRP1. Western blotting of large tryptic fragments of MRP1 with three well-characterized epitope-specific mAbs (MRPr1, QCRL1, and MRPm6) showed LTC(4) binding in both the N- and C-terminal halves of MRP1. Furthermore, a peptide corresponding to the N-terminal membrane-spanning domain of MRP1 (MSD0) was photoaffinity labeled by AALTC(4), indicating that MSD0 contains an LTC(4) binding site. Higher resolution mapping of additional LTC(4) binding sites was obtained using eight MRP1 variants with each containing hemaglutanin A (HA) epitopes at different sites (at amino acid 4, 163, 271, 574, 653, 938, 1001, or 1222). MRP1 variants were photoaffinity labeled with IAALTC(4) and digested with trypsin to isolate specific regions of MRP1 that interact with LTC(4). These results confirmed that sequences in MSD0 interact with IAALTC(4). Other regions that were photoaffinity labeled by IAALTC(4) include TM 10-11, TM 16-17, and TM 12, shown previously to encode MRP1 drug binding site(s). Together, our results show a high-resolution map of LTC(4) binding domains in MRP1 and provide the first direct evidence for LTC(4) binding within MSD0.
...
PMID:The leucotriene C4 binding sites in multidrug resistance protein 1 (ABCC1) include the first membrane multiple spanning domain. 1562 76
The human ATP-binding cassette proteins MRP1 (
ABCC1
), MRP2 (ABCC2) and MRP3 (ABCC3) are active transporters of antineoplastic drugs as well as conjugated metabolites and other organic anions. In addition to being substrates, many glucuronide, glutathione and sulfate conjugates can also inhibit the transport activities of these MRP-related proteins, sometimes in a glutathione (
GSH
)-dependent manner. Nicotine is the major addictive component of cigarette smoke. Three glucuronide metabolites of this compound have been identified in vivo: nicotine-N-glucuronide, cotinine-N-glucuronide and trans-hydroxycotinine-O-glucuronide. In this study, we first chemically synthesized trans-hydroxycotinine-O-glucuronide and then tested the ability of this compound, nicotine-N-glucuronide and cotinine-N-glucuronide to modulate the vesicular transport of several organic anions by MRP1, MRP2 and MRP3. We observed that none of the three metabolites at concentrations up to 100muM significantly affected organic anion transport by MRP1 or MRP2, either in the absence or presence of
GSH
. MRP3-mediated transport of 17beta-estradiol 17-(beta-d-glucuronide) and methotrexate were partially inhibited by trans-hydroxycotinine-O-glucuronide (300 microM) (by 70% and 50%, respectively), whereas nicotine-N-glucuronide and cotinine-N-glucuronide had no effect. We conclude that the physiological functions of MRP1, MRP2 and MRP3 are not likely to be substantially affected by nicotine glucuronide metabolites at concentrations achievable in human serum.
...
PMID:Limited modulation of the transport activity of the human multidrug resistance proteins MRP1, MRP2 and MRP3 by nicotine glucuronide metabolites. 1579 89
The purpose of this study is to evaluate the effects of newly synthesized 4-aryl-1,4-dihydropyridine and pyridines on drug efflux mediated by multidrug resistance-associated protein 1 (MRP1,
ABCC1
). These compounds were designed to maximize inhibition of P-glycoprotein and minimize calcium channel binding activity, based on structure modifications of niguldipine. A [3H]vinblastine accumulation study was conducted in human small cell lung cancer H69AR (overexpressing MRP1) and wild type H69 cells. Five out of 16 dihydropyridines and 6 out of 9 pyridines were found to significantly increase the intracellular accumulation of vinblastine in resistant H69AR cells (p<0.01) at a concentration of 2.5 microM. Daunomycin accumulation studies, determined using a flow cytometric assay, were also performed in H69AR and human pancreatic adenocarcinoma Panc-1 cells and the results were highly correlated with those obtained from the [3H]vinblastine accumulation studies. Four compounds, which significantly increased vinblastine accumulation, were tested for their effect on daunomycin cytotoxicity in H69AR cells and found to significantly decrease the IC50 of daunomycin, confirming the accumulation study results. Compounds were also tested for their effect on intracellular glutathione (
GSH
) concentrations, a cosubstrate for MRP1-mediated efflux in H69AR and Panc-1 cells. No significant changes in the intracellular
GSH
level were observed in H69AR cells after treatment with these test compounds. However, following a 2-hr and 24-hr incubation with a dihydropyridine compound, Im, and its pyridine derivative IIm, there was a small (approximately 20%) but statistically significant decrease in intracellular
GSH
in Panc-1 cells. Our results indicate that some dihydropyridine and pyridine compounds in our series could inhibit MRP1-mediated transport and that
GSH
modulation plays a minor, if any, role in this effect.
...
PMID:Effects of new 4-aryl-1,4-dihydropyridines and 4-arylpyridines on drug efflux mediated by multidrug resistance-associated protein 1. 1613 54
Multidrug resistance protein-5 (MRP5, ABCC5) is a member of the ATP-binding cassette transporter superfamily that effluxes a broad range of natural and xenobiotic compounds such as cyclic GMP, antiviral compounds, and cancer chemotherapeutic agents including nucleoside-based drugs, antifolate agents and platinum compounds. In cellular assays, MRP5 transfectants are less fluorescent after incubation with 5-chloromethylfluorescein diacetate (CMFDA). The present study examines the uptake of a close fluorescent analog, carboxydichlorofluorescein (CDCF), and drug substrates into inside-out membrane vesicles prepared from MRP transfected cells. MRP5-mediated uptake of CDCF was ATP-dependent and
GSH
-independent and possessed a Km of 12 microM and a Vmax of 56 pmol/min/mg prot. Comparison of kinetic parameters with drug substrates such as methotrexate (MTX), pemetrexed (Alimta), and the metabolite of 5-fluorouracil, 5-fluorodeoxyuridine monophosphate (5-FdUMP) (Km values of 0.3-1.3 mM) indicated that MRP5 has a 25-100-fold higher affinity for CDCF than for these drugs and that they share a common transport binding site. In addition, the potency of MRP5 inhibitors such as probenecid, MK571, and the phosphodiesterase 5 inhibitors correlated well between the uptake of CDCF and MTX. A survey of CDCF uptake by other MRPs revealed that MRP2 (ABCC2) also demonstrated ATP-dependent uptake with a Km of 19 microM and Vmax of 95.5 pmol/min/mg prot, while MRP1 (
ABCC1
) and MRP4 (ABCC4) had little to no uptake. Taken together, these data indicate that CDCF is a useful fluorescent drug surrogate with which to measure ATP-dependent MRP5-mediated transport.
...
PMID:Kinetic validation of the use of carboxydichlorofluorescein as a drug surrogate for MRP5-mediated transport. 1633 12
Multidrug resistance protein 1 (MRP1/
ABCC1
) is an ATP-dependent efflux pump that can confer resistance to multiple anticancer drugs and transport conjugated organic anions. Unusually, transport of several MRP1 substrates requires glutathione (
GSH
). For example, estrone sulfate transport by MRP1 is stimulated by
GSH
, vincristine is co-transported with
GSH
, or
GSH
can be transported alone. In the present study, radioligand binding assays were developed to investigate the mechanistic details of
GSH
-stimulated transport of estrone sulfate by MRP1. We have established that estrone sulfate binding to MRP1 requires
GSH
, or its non-reducing analogue S-methyl
GSH
(S-mGSH), and further that the affinity (Kd) of MRP1 for estrone sulfate is 2.5-fold higher in the presence of S-mGSH than
GSH
itself. Association kinetics show that
GSH
binds to MRP1 first, and we propose that
GSH
binding induces a conformational change, which makes the estrone sulfate binding site accessible. Binding of non-hydrolyzable ATP analogues to MRP1 decreases the affinity for estrone sulfate. However,
GSH
(or S-mGSH) is still required for estrone sulfate binding, and the affinity for
GSH
is unchanged. Estrone sulfate affinity remains low following hydrolysis of ATP. The affinity for
GSH
also appears to decrease in the post-hydrolytic state. Our results indicate ATP binding is sufficient for reconfiguration of the estrone sulfate binding site to lower affinity and argue for the presence of a modulatory
GSH
binding site not associated with transport of this tripeptide. A model for the mechanism of
GSH
-stimulated estrone sulfate transport is proposed.
...
PMID:Role of GSH in estrone sulfate binding and translocation by the multidrug resistance protein 1 (MRP1/ABCC1). 1656 74
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