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Divisions of Experimental Therapy [J. D. A., J. M. L., J. H. M. S., A. H. S.], Molecular Genetics [M. v. D. V.], Clinical Chemistry [O. v. T.], and Molecular Biology [G. R.], The Netherlands Cancer Institute, 1066 CX Amsterdam, the Netherlands; and Laboratory of Organic Chemistry, Institute of Molecular Chemistry, University of Amsterdam, Amsterdam, the Netherlands [A. v. L., G-J. K.]
Inhibitors of the breast cancer resistance protein (BCRP/ABCG2) multidrug transporter are of interest as chemosensitizers for clinical drug resistance, for improving the pharmacokinetics of substrate chemotherapeutic drugs, and in functional assays of BCRP activity for tailoring chemotherapy. The fungal toxin fumitremorgin C (FTC) is a potent and specific inhibitor of BCRP, but its neurotoxic effects preclude use in vivo. We have therefore evaluated a new tetracyclic analogue of FTC, Ko143, as a practical inhibitor of BCRP, comparing it with two other analogues in the same class and with GF120918. All three FTC analogues are effective inhibitors of both mouse Bcrp1 and human BCRP, proving highly active for increasing the intracellular drug accumulation and reversing Bcrp1/BCRP-mediated multidrug resistance. Indeed, Ko143 appears to be the most potent BCRP inhibitor known thus far. In contrast, the compounds have only low activity against P-glycoprotein, the multidrug resistance-associated protein (MRP1), or other known drug transporters. They are nontoxic in vitro at useful concentrations and evinced no signs of toxicity in mice at high oral or i.p. doses. Administered p.o. to inhibit intestinal Bcrp1, Ko143 markedly increased the oral availability of topotecan in mice. It is thus the first highly potent and specific BCRP inhibitor applicable in vivo. As such, Ko143 and other FTC analogues of this type represent valuable reagents for analysis of drug resistance mechanisms and may be candidates for development as clinical BCRP inhibitors.
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C. Ozvegy-Laczka, G. Varady, G. Koblos, O. Ujhelly, J. Cervenak, J. D. Schuetz, B. P. Sorrentino, G.-J. Koomen, A. Varadi, K. Nemet, et al. Function-dependent Conformational Changes of the ABCG2 Multidrug Transporter Modify Its Interaction with a Monoclonal Antibody on the Cell Surface J. Biol. Chem., February 11, 2005; 280(6): 4219 - 4227. [Abstract] [Full Text] [PDF]
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P.L. R. Ee, X. He, D. D. Ross, and W. T. Beck Modulation of breast cancer resistance protein (BCRP/ABCG2) gene expression using RNA interference Mol. Cancer Ther., December 1, 2004; 3(12): 1577 - 1584. [Abstract] [Full Text] [PDF]
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N. Kalin, J. Fernandes, S. Hrafnsdottir, and G. van Meer Natural Phosphatidylcholine Is Actively Translocated across the Plasma Membrane to the Surface of Mammalian Cells J. Biol. Chem., August 6, 2004; 279(32): 33228 - 33236. [Abstract] [Full Text] [PDF]
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I. Ifergan, A. Shafran, G. Jansen, J. H. Hooijberg, G. L. Scheffer, and Y. G. Assaraf Folate Deprivation Results in the Loss of Breast Cancer Resistance Protein (BCRP/ABCG2) Expression: A ROLE FOR BCRP IN CELLULAR FOLATE HOMEOSTASIS J. Biol. Chem., June 11, 2004; 279(24): 25527 - 25534. [Abstract] [Full Text] [PDF]
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C. Ozvegy-Laczka, T. Heged""s, G. Varady, O. Ujhelly, J. D. Schuetz, A. Varadi, G. Keri, L. Orfi, K. Nemet, and B. Sarkadi High-Affinity Interaction of Tyrosine Kinase Inhibitors with the ABCG2 Multidrug Transporter Mol. Pharmacol., June 1, 2004; 65(6): 1485 - 1495. [Abstract] [Full Text] [PDF]
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J van der Heijden, M C de Jong, B A C Dijkmans, W F Lems, R Oerlemans, I Kathmann, C G Schalkwijk, G L Scheffer, R J Scheper, and G Jansen Development of sulfasalazine resistance in human T cells induces expression of the multidrug resistance transporter ABCG2 (BCRP) and augmented production of TNF{alpha} Ann Rheum Dis, February 1, 2004; 63(2): 138 - 143. [Abstract] [Full Text] [PDF]
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K. S. Pang MODELING OF INTESTINAL DRUG ABSORPTION: ROLES OF TRANSPORTERS AND METABOLIC ENZYMES (FOR THE GILLETTE REVIEW SERIES) Drug Metab. Dispos., December 1, 2003; 31(12): 1507 - 1519. [Full Text] [PDF]
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A. E. van Herwaarden, J. W. Jonker, E. Wagenaar, R. F. Brinkhuis, J. H. M. Schellens, J. H. Beijnen, and A. H. Schinkel The Breast Cancer Resistance Protein (Bcrp1/Abcg2) Restricts Exposure to the Dietary Carcinogen 2-Amino-1-methyl-6-phenylimidazo[4,5-b]pyridine Cancer Res., October 1, 2003; 63(19): 6447 - 6452. [Abstract] [Full Text] [PDF]
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G. Reid, P. Wielinga, N. Zelcer, M. de Haas, L. van Deemter, J. Wijnholds, J. Balzarini, and P. Borst Characterization of the Transport of Nucleoside Analog Drugs by the Human Multidrug Resistance Proteins MRP4 and MRP5 Mol. Pharmacol., May 1, 2003; 63(5): 1094 - 1103. [Abstract] [Full Text] [PDF]
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J. D. Allen, S. C. van Dort, M. Buitelaar, O. van Tellingen, and A. H. Schinkel Mouse Breast Cancer Resistance Protein (Bcrp1/Abcg2) Mediates Etoposide Resistance and Transport, but Etoposide Oral Availability Is Limited Primarily by P-glycoprotein Cancer Res., March 15, 2003; 63(6): 1339 - 1344. [Abstract] [Full Text] [PDF]
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M. H. Mossink, A. van Zon, E. Franzel-Luiten, M. Schoester, V. A. Kickhoefer, G. L. Scheffer, R. J. Scheper, P. Sonneveld, and E. A. C. Wiemer Disruption of the Murine Major Vault Protein (MVP/LRP) Gene Does Not Induce Hypersensitivity to Cytostatics Cancer Res., December 15, 2002; 62(24): 7298 - 7304. [Abstract] [Full Text] [PDF]
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 J. W. Jonker, M. Buitelaar, E. Wagenaar, M. A. van der Valk, G. L. Scheffer, R. J. Scheper, T. Plosch, F. Kuipers, R. P. J. O. Elferink, H. Rosing, et al. The breast cancer resistance protein protects against a major chlorophyll-derived dietary phototoxin and protoporphyria PNAS, November 26, 2002; 99(24): 15649 - 15654. [Abstract] [Full Text] [PDF]
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