Carrier- and receptor-mediated transport of folate antagonists targeting folate-dependent enzymes: correlates of molecular-structure and biological activity

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Carrier- and receptor-mediated transport of folate antagonists targeting folate-dependent enzymes: correlates of molecular-structure and biological activity

GR Westerhof, JH Schornagel, I Kathmann, AL Jackman, A Rosowsky, RA Forsch, JB Hynes, FT Boyle, GJ Peters and HM Pinedo

Department of Oncology, University Hospital Vrije Universiteit, Amsterdam, The Netherlands.

The transport properties and growth-inhibitory potential of 37 classic and novel antifolate compounds have been tested in vitro against human and murine cell lines expressing different levels of the reduced folate carrier (RFC), the membrane-associated folate binding protein (mFBP), or both. The intracellular targets of these drugs were dihydrofolate reductase (DHFR), glycinamide ribonucleotide transformylase (GARTF), folylpolyglutamate synthetase (FPGS), and thymidylate synthase (TS). Parameters that were investigated included the affinity of both folate- transport systems for the antifolate drugs, their growth-inhibitory potential as a function of cellular RFC/mFBP expression, and the protective effect of either FA or leucovorin against growth inhibition. Methotrexate, aminopterin, N10-propargyl-5,8-dideazafolic acid (CB3717), ZD1694, 5,8-dideazaisofolic acid (IAHQ), 5,10- dideazatetrahydrofolic acid (DDATHF), and 5-deazafolic acid (efficient substrate for FPGS) were used as the basic structures in the present study, from which modifications were introduced in the pteridine/quinazoline ring, the C9-N10 bridge, the benzoyl ring, and the glutamate side chain. It was observed that RFC exhibited an efficient substrate affinity for all analogues except CB3717, 2-NH2- ZD1694, and glutamate side-chain-modified FPGS inhibitors. Substitutions at the 2-position (e.g., 2-CH3) improved the RFC substrate affinity for methotrexate and aminopterin. Other good substrates included PT523 (N alpha-(4-amino-4-deoxypteroyl)-N delta- hemiphthaloyl-L-ornithine), 10-ethyl-10-deazaaminopterin, and DDATHF. With respect to mFBP, modifications at the N-3 and 4-oxo positions resulted in a substantial loss of binding affinity. Modifications at other sites of the molecule were well tolerated. Growth-inhibition studies identified a series of drugs that were preferentially transported via RFC (2,4-diamino structures) or mFBP (CB3717, 2-NH- ZD1694, or 5,8-dideazaisofolic acid), whereas other drugs were efficiently transported via both transport pathways (e.g., DDATHF, ZD1694, BW1843U89, or LY231514). Given the fact that for an increasing number of normal and neoplastic cells and tissue, different expression levels of RFC and mFBP are being recognized, this folate antagonist structure-activity relationship can be of value for predicting drug sensitivity and resistance of tumor cells or drug-related toxicity to normal cells and for the rational design and development of novel antifolates.

Volume 48, Issue 3, pp. 459-471, 09/01/1995
Copyright © 1995 by American Society for Pharmacology and Experimental Therapeutics

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				D. S. Theti and A. L. Jackman The Role of {alpha}-Folate Receptor-Mediated Transport in the Antitumor Activity of Antifolate Drugs Clin. Cancer Res., February 1, 2004; 10(3): 1080 - 1089. [Abstract] [Full Text] [PDF]

				D. S. Theti, V. Bavetsias, L. A. Skelton, J. Titley, D. Gibbs, G. Jansen, and A. L. Jackman Selective Delivery of CB300638, a Cyclopenta[g]quinazoline-based Thymidylate Synthase Inhibitor into Human Tumor Cell Lines Overexpressing the {alpha}-Isoform of the Folate Receptor Cancer Res., July 1, 2003; 63(13): 3612 - 3618. [Abstract] [Full Text] [PDF]

				K. Wosikowski, E. Biedermann, B. Rattel, N. Breiter, P. Jank, R. Loser, G. Jansen, and G. J. Peters In Vitro and in Vivo Antitumor Activity of Methotrexate Conjugated to Human Serum Albumin in Human Cancer Cells Clin. Cancer Res., May 1, 2003; 9(5): 1917 - 1926. [Abstract] [Full Text] [PDF]

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				R. Zhao, S. Babani, F. Gao, L. Liu, and I. D. Goldman The Mechanism of Transport of the Multitargeted Antifolate (MTA) and Its Cross-resistance Pattern in Cells with Markedly Impaired Transport of Methotrexate Clin. Cancer Res., September 1, 2000; 6(9): 3687 - 3695. [Abstract] [Full Text]

				R. Zhao, F. Gao, S. Babani, and I. D. Goldman Sensitivity to 5,10-Dideazatetrahydrofolate Is Fully Conserved in a Murine Leukemia Cell Line Highly Resistant to Methotrexate Due to Impaired Transport Mediated by the Reduced Folate Carrier Clin. Cancer Res., August 1, 2000; 6(8): 3304 - 3311. [Abstract] [Full Text]

Carrier- and receptor-mediated transport of folate antagonists targeting folate-dependent enzymes: correlates of molecular-structure and biological activity

Volume 48, Issue 3, pp. 459-471, 09/01/1995 Copyright © 1995 by American Society for Pharmacology and Experimental Therapeutics

Volume 48, Issue 3, pp. 459-471, 09/01/1995
Copyright © 1995 by American Society for Pharmacology and Experimental Therapeutics

				G. J. Peters, E. Smitskamp-Wilms, K. Smid, H. M. Pinedo, and G. Jansen Determinants of Activity of the Antifolate Thymidylate Synthase Inhibitors Tomudex (ZD1694) and GW1843U89 against Mono- and MultilayeredColon Cancer Cell Lines under Folate-restricted Conditions Cancer Res., November 1, 1999; 59(21): 5529 - 5535. [Abstract] [Full Text] [PDF]

				M. G. Rots, R. Pieters, G. J. Peters, C. H. van Zantwijk, R. Mauritz, P. Noordhuis, J. C. Willey, K. Hahlen, U. Creutzig, G. Janka-Schaub, et al. Circumvention of Methotrexate Resistance in Childhood Leukemia Subtypes by Rationally Designed Antifolates Blood, November 1, 1999; 94(9): 3121 - 3128. [Abstract] [Full Text] [PDF]

				M. Wu, W. Gunning, and M. Ratnam Expression of Folate Receptor Type {{alpha}} in Relation to Cell Type, Malignancy, and Differentiation in Ovary, Uterus, and Cervix Cancer Epidemiol. Biomarkers Prev., September 1, 1999; 8(9): 775 - 782. [Abstract] [Full Text]

				J. H. Hooijberg, H. J. Broxterman, M. Kool, Y. G. Assaraf, G. J. Peters, P. Noordhuis, R. J. Scheper, P. Borst, H. M. Pinedo, and G. Jansen Antifolate Resistance Mediated by the Multidrug Resistance Proteins MRP1 and MRP2 Cancer Res., June 1, 1999; 59(11): 2532 - 2535. [Abstract] [Full Text] [PDF]

				J. A. Reddy, L. S. Haneline, E. F. Srour, A. C. Antony, D. W. Clapp, and P. S. Low Expression and Functional Characterization of the beta -Isoform of the Folate Receptor on CD34+ Cells Blood, June 1, 1999; 93(11): 3940 - 3948. [Abstract] [Full Text] [PDF]

				K. M. Maziarz, H. L. Monaco, F. Shen, and M. Ratnam Complete Mapping of Divergent Amino Acids Responsible for Differential Ligand Binding of Folate Receptors alpha �and beta J. Biol. Chem., April 16, 1999; 274(16): 11086 - 11091. [Abstract] [Full Text] [PDF]

				G. Jansen, H. Barr, I. Kathmann, M. A. Bunni, D. G. Priest, P. Noordhuis, G. J. Peters, and Y. G. Assaraf Multiple Mechanisms of Resistance to Polyglutamatable and Lipophilic Antifolates in Mammalian Cells: Role of Increased Folylpolyglutamylation, Expanded Folate Pools, and Intralysosomal Drug Sequestration Mol. Pharmacol., April 1, 1999; 55(4): 761 - 769. [Abstract] [Full Text]

				B. van Triest, H. M. Pinedo, Y. van Hensbergen, K. Smid, F. Telleman, P. S. Schoenmakers, C. L. van der Wilt, J. A. M. van Laar, P. Noordhuis, G. Jansen, et al. Thymidylate Synthase Level as the Main Predictive Parameter for Sensitivity to 5-Fluorouracil, but not for Folate-based Thymidylate Synthase Inhibitors, in 13 Nonselected Colon Cancer Cell Lines Clin. Cancer Res., March 1, 1999; 5(3): 643 - 654. [Abstract] [Full Text] [PDF]

				G. Jansen, R. Mauritz, S. Drori, H. Sprecher, I. Kathmann, M. Bunni, D. G. Priest, P. Noordhuis, J. H. Schornagel, H. M. Pinedo, et al. A Structurally Altered Human Reduced Folate Carrier with Increased Folic Acid Transport Mediates a Novel Mechanism of Antifolate Resistance J. Biol. Chem., November 13, 1998; 273(46): 30189 - 30198. [Abstract] [Full Text] [PDF]

				C. H. Takimoto New Antifolates: Pharmacology and Clinical Applications Oncologist, February 1, 1996; 1(1): 68 - 81. [Abstract] [Full Text] [PDF]