Glutathione-dependent Binding of a Photoaffinity Analog of Agosterol A to the C-terminal Half of Human Multidrug Resistance Protein

Ren, Xiao‐Qin; Furukawa, Tatsuhiko; Aoki, Shunji; Nakajima, Tatsuo; Sumizawa, Tomoyuki; Haraguchi, Masanobu; Chen, Zhe‐Sheng; Kobayashi, Mariko; Akiyama, Shin–ichi

doi:10.1074/jbc.m101554200

Cited by 62 publications

(101 citation statements)

References 50 publications

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“…LTC4 binding sites were mapped to a region encompassing MSD1-NBD1 and to TM14-17, and LY474776 binding was mapped to TM16-17. In addition, agosterol A, a polyhydroxylated sterol acetate that is a potent glutathione-dependent inhibitor, was also reported to crosslink TM17 (Ren et al, 2001(Ren et al, , 2002. The results of site-directed mutagenesis studies support the involvement of TM14 and TM17 in MRP1 activity, and have also implicated residues in TM6 (Ito et al, 2001b;Zhang et al, 2001aZhang et al, , b, 2002Haimeur et al, 2002;Ren et al, 2002).…”

Section: Mrp1supporting

confidence: 55%

“…Glutathione-dependent binding of agosterol A to the COOH half of the protein required the presence of the L0 domain, implicating the latter region in glutathione binding (Ren et al, 2001). MRP1 can be crosslinked with glutathione photoaffinity reagents (Ciaccio et al, 1996), and studies using these probes have provided more direct information on sites of glutathione interaction.…”

Section: Mrp1mentioning

confidence: 99%

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The MRP family of drug efflux pumps

2003

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The MRP family is comprised of nine related ABC transporters that are able to transport structurally diverse lipophilic anions and function as drug efflux pumps. Investigations of this family have provided insights not only into cellular resistance mechanisms associated with natural product chemotherapeutic agents, antifolates and nucleotide analogs, but also into factors that influence drug distribution in the body, membrane systems that are involved in the extrusion of reduced folates, cysteinyl leukotrienes and bile acids, and the molecular basis of two hereditary conditions in humans. The review will describe the biochemical properties, drug resistance activities and potential in vivo functions of these unusual pumps.

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Section: Mrp1supporting

confidence: 55%

Section: Mrp1mentioning

confidence: 99%

The MRP family of drug efflux pumps

2003

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“…Both iodinated compounds have been shown to cross-link preferentially to proteolytic peptides that contain either TM helices 10 and 11 or helices 16 and 17 (31). A third non-physiological compound, an azido derivative of the marine sponge polyhydroxylated sterol acetate, agosterol-A (AG-A), has also been used to photolabel MRP1 (34). In contrast to the other compounds, binding of AG-A is GSH dependent, and labeling is restricted to a site in the COOH-proximal half of the protein (34).…”

Section: Multidrug Resistance Protein 1 (Mrp1/abcc1)mentioning

confidence: 99%

“…As an alternative approach to identifying regions of the protein directly involved in substrate binding, MRP1 has been photolabeled by its known high affinity physiological substrate LTC 4 as well as by compounds that are less well characterized with respect to binding and transport (10,12,27,(31)(32)(33)(34). Although these compounds compete with LTC 4 for binding to MRP1, their affinities appear to be considerably lower, and they also interact with the distantly related P-glycoprotein.…”

Section: Multidrug Resistance Protein 1 (Mrp1/abcc1)mentioning

confidence: 99%

Photolabeling of Human and Murine Multidrug Resistance Protein 1 with the High Affinity Inhibitor [125I]LY475776 and Azidophenacyl-[35S]Glutathione

Qian

Grant

Westlake

et al. 2002

Journal of Biological Chemistry

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We show that photolabeling of the COOH-proximal site by LY475776 and the labeling of both NH 2 -and COOH-proximal sites by azidophenacyl-GSH requires the cytoplasmic linker (CL3) region connecting the first and second MSDs of the protein, but not the first MSD itself. Although required for binding, CL3 is not photolabeled by azidophenacyl-GSH. Finally, we identify non-conserved amino acids in the third MSD that contribute to the high affinity with which LY475776 binds to MRP1.

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“…On one hand, the sites interacting with the drug substrates are presumably harbored in the transmembrane domains (6 -8); however, recent data suggest that the intracellular linkers L0 and L1 may also play role in binding drug substrates (9,10). On the other hand, the ATP hydrolysis, which energizes the transport, takes place within the ABC domains.…”

mentioning

confidence: 99%

The Role of the Conserved Glycines of ATP-binding Cassette Signature Motifs of MRP1 in the Communication between the Substrate-binding Site and the Catalytic Centers

Szentpétery

Kern

Liliom

et al. 2004

Journal of Biological Chemistry

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A key element of the structural model of ABC-ATPases is the interaction of the two ABC domains. They complement each other's active sites in a way that the ABC signature motif (LSGGQ) of one subunit interacts with the ␥-phosphate of the ATP, bound at the Walker motifs of the opposite subunit. In the present study, the conserved glycines in the fourth position of the LSGGQ motifs of human MRP1 were substituted for aspartic acids (G771D and G1433D), the mutants were expressed in Sf9 insect cells, and the nucleotide-as well as the transported substrate-protein interactions were studied. We found that these transport-and ATPase-incompetent mutants showed no nucleotide trapping under any of the conditions examined. However, when measuring the effect of nucleotide and transported substrates on the vanadate-induced cleavage reactions, we found that the effect of substrates on the cleavage reactions was significantly different in the mutant MRP1 proteins than in the wild type. Although the transported substrates (e.g. etoposide ؉ oxidized glutathione) stimulated the formation of the posthydrolytic complex in the wild type, this reaction was inhibited in the signature mutants. Our study also revealed that a similar mutation in the ABC signature of either ABC unit resulted in the same effect. We suggest that the conserved glycine residues in both LSGGQ segments are part of the conformational network, which is responsible for the accelerated hydrolytic activity upon interaction of the protein with its transported substrates. This intramolecular communication between the substrate-binding site and the catalytic centers is assumed to be a general feature of the molecular mechanism of ABC transporters.

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Glutathione-dependent Binding of a Photoaffinity Analog of Agosterol A to the C-terminal Half of Human Multidrug Resistance Protein

Cited by 62 publications

References 50 publications

The MRP family of drug efflux pumps

The MRP family of drug efflux pumps

Photolabeling of Human and Murine Multidrug Resistance Protein 1 with the High Affinity Inhibitor [125I]LY475776 and Azidophenacyl-[35S]Glutathione

The Role of the Conserved Glycines of ATP-binding Cassette Signature Motifs of MRP1 in the Communication between the Substrate-binding Site and the Catalytic Centers

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