Use of peptide antibodies to probe for the mitoxantrone resistance-associated protein MXR/BCRP/ABCP/ABCG2

Litman, Thomas; Jensen, Ulla; Hansen, Alastair; Covitz, Kuang-Ming; Zhan, Zhirong; Fetsch, Patricia; Abati, Andrea; Pb, Hansen; Horn, Thomas; Skovsgaard, Torben; Bates, Susan E.

doi:10.1016/s0005-2736(02)00492-3

Cited by 120 publications

(103 citation statements)

References 26 publications

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“…In order to investigate whether this lower molecular weight band was representative of the non-glycosylated protein, isolated membranes from cells bearing wild type or mutant vectors were treated with the PNGase F enzyme to remove N-linked glycans. In case of the G553L mutant, no significant shift in molecular weight was observed after PNGase F treatment (Figure 3) indicating that, indeed, the G553L mutant is underglycosylated, while a clear shift to a lower molecular weight band was seen in membranes extracted from HEK 293 cells transfected with wild type ABCG2 or from flavopiridol-selected MCF-7 cells used as controls (25).…”

Section: Resultsmentioning

confidence: 95%

Mutational Studies of G553 in TM5 of ABCG2: A Residue Potentially Involved in Dimerization

et al. 2006

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ABCG2 is an ATP-binding cassette half-transporter conferring resistance to chemotherapeutic agents such as mitoxantrone, irinotecan, and flavopiridol. With its one transmembrane and one ATP-binding domain, ABCG2 is thought to homodimerize for function. One conserved region potentially involved in dimerization is a 3-amino acid sequence in transmembrane segment 5 (residues 552-554). Mutations in the corresponding residues in the Drosophila white protein (an orthologue of ABCG2) are thought to disrupt heterodimerization. We substituted glycine 553 with leucine (G553L) followed by stable transfection in HEK 293 cells. The mutant was not detectable on the cell surface and markedly reduced protein expression levels were observed by immunoblot. A deficiency in N-linked glycosylation was suggested by reduction in molecular weight compared to the 72-kDa wild type ABCG2. Similar results were observed with the G553E mutant. Confocal microscopy demonstrated mostly ER localization of the G553L mutant in HEK 293 cells, even when coexpressed with the wild type protein. Despite its altered localization, the G553L and G553E mutants were cross-linked using amine-reactive cross-linkers with multiple arm lengths, suggesting that the monomers are in close proximity but unable to complete normal trafficking. Interestingly, when expressed in Sf9 insect cells, G553L traffics to the cell membrane but is unable to hydrolyze ATP or transport the Hoechst dye. Still, when coexpressed, the mutant interferes with the Hoechst transport activity of the wild type protein. These data show that glycine 553 is important for protein trafficking and are consistent with, but do not yet prove, its involvement in ABCG2 homodimerization.The ATP-binding cassette 1 (ABC) transporter family, with 48 known human members classified in seven subgroups, constitutes one of the largest families of membrane transporters present in all species (1). These proteins are involved in the energy-dependent transport of a † This research was supported [in part] by the Intramural Research Program of the NIH, National Cancer Institute, Center for Cancer Research.*To whom correspondence should be addressed. Tel: (301) 402-1357, Fax: (301) wide variety of substrates and play an important role in numerous genetic disorders (2), a wellcharacterized example of which is cystic fibrosis, caused by mutations of the cystic fibrosis transmembrane conductance regulator (CFTR/ABCC7) protein (3). ABC transporters are also thought be responsible for the so called multidrug resistance phenomenon in antimicrobial (4) and anticancer (5) therapy; the most extensively studied example of the latter is resistance attributed to P-glycoprotein (P-gp/ABCB1)(6). ABCG2, also called BCRP/MXR/ABCP, is a member of the G subfamily of human ABC transporters, and has been demonstrated to confer resistance to multiple cancer chemotherapeutic agents, such as mitoxantrone, flavopiridol, methotrexate, and the camptothecin derivatives SN-38 and topotecan.(7-10) In addition to a potential role in c...

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Section: Resultsmentioning

confidence: 95%

Mutational Studies of G553 in TM5 of ABCG2: A Residue Potentially Involved in Dimerization

et al. 2006

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“…This dendrogram was produced using multiple sequence alignments with Clustal_X 1.8 (Thompson et al, 1997), with graphical representation in a tree diagram using TreeView 1.6.6 Table 3 See Litman et al (2002), using polyclonal antibodies directed against peptide epitopes of BCRP. The functional activity of BCRP in transfected insect cells, using a baculovirus-Sf9 cell system, also argues strongly for the activity of the protein as a homodimer (Ozvegy et al, 2001(Ozvegy et al, , 2002.…”

Section: Identification Of the Bcrp Genementioning

confidence: 99%

“…The results suggest dominant-negative inhibition as a possible new strategy to circumvent clinical drug resistance. Antibodies directed at BCRP Litman et al (2000Litman et al ( , 2002 developed polyclonal antibodies against several epitopes on BCRP. Rabbit anti-BCRP antisera 84705 was raised against an 18-mer peptide of the ATP-binding region of the protein and could detect BCRP polypeptide at a dilution of 1 : 2000.…”

Section: Gene Therapy Approaches To Modulating Bcrpmentioning

confidence: 99%

Multidrug resistance mediated by the breast cancer resistance protein BCRP (ABCG2)

2003

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Observations of functional adenosine triphosphate (ATP)-dependent drug efflux in certain multidrug-resistant cancer cell lines without overexpression of P-glycoprotein or multidrug resistance protein (MRP) family members suggested the existence of another ATP-binding cassette (ABC) transporter capable of causing cancer drug resistance. In one such cell line (MCF-7/AdrVp), the overexpression of a novel member of the G subfamily of ABC transporters was found. The new transporter was termed the breast cancer resistance protein (BCRP), because of its identification in MCF-7 human breast carcinoma cells. BCRP is a 655 amino-acid polypeptide, formally designated as ABCG2. Like all members of the ABC G (white) subfamily, BCRP is a half transporter. Transfection and enforced overexpression of BCRP in drug-sensitive MCF-7 or MDA-MB-231 cells recapitulates the drug-resistance phenotype of MCF-7/AdrVp cells, consistent with current evidence suggesting that functional BCRP is a homodimer. BCRP maps to chromosome 4q22, downstream from a TATA-less promoter. The spectrum of anticancer drugs effluxed by BCRP includes mitoxantrone, camptothecin-derived and indolocarbazole topoisomerase I inhibitors, methotrexate, flavopiridol, and quinazoline ErbB1 inhibitors. Transport of anthracyclines is variable and appears to depend on the presence of a BCRP mutation at codon 482. Potent and specific inhibitors of BCRP are now being developed, opening the door to clinical applications of BCRP inhibition. Owing to tissue localization in the placenta, bile canaliculi, colon, small bowel, and brain microvessel endothelium, BCRP may play a role in protecting the organism from potentially harmful xenobiotics. BCRP expression has also been demonstrated in pluripotential 'side population' stem cells, responsible for the characteristic ability of these cells to exclude Hoechst 33342 dye, and possibly for the maintenance of the stem cell phenotype. Studies are emerging on the role of BCRP expression in drug resistance in clinical cancers. More prospective studies are needed, preferably combining BCRP protein or mRNA quantification with functional assays, in order to determine the contribution of BCRP to drug resistance in human cancers.

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“…Breast cancer resistance protein (BCRP) is an ATP dependent transporter also known as mitoxantrone resistance-associated protein (Allikmets et al, 1998) is highly expressed in the placenta, as well as in the uterus (Langmann et al, 2003) and is localized on the apical surface of the chorionic villi syncytiotrophoblast (Litman et al, 2002). The substrate specificity of BCRP has not been elucidated completely.…”

Section: Breast Cancer-resistance Protein (Bcrp)/abcg2mentioning

confidence: 99%

ABC Transporters in Human Placenta and Their Role in Maternal-Fetal Cholesterol Transfer: ABCA1 Candidate Target

Bhattacharjee¹,

Ietta²,

Romagnoli³

et al. 2012

Recent Advances in Research on the Human Placenta

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Use of peptide antibodies to probe for the mitoxantrone resistance-associated protein MXR/BCRP/ABCP/ABCG2

Cited by 120 publications

References 26 publications

Mutational Studies of G553 in TM5 of ABCG2: A Residue Potentially Involved in Dimerization

Mutational Studies of G553 in TM5 of ABCG2: A Residue Potentially Involved in Dimerization

Multidrug resistance mediated by the breast cancer resistance protein BCRP (ABCG2)

ABC Transporters in Human Placenta and Their Role in Maternal-Fetal Cholesterol Transfer: ABCA1 Candidate Target

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