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  • Boyle, M.J., Wilson, D.W., Richards, J.S., Riglar, D.T., Tetteh, K.K.A., Conway, D.J., Ralph, S.A., Baum, J. & Beeson, J.G. (2010) Isolation of viable Plasmodium falciparum merozoites to define erythrocyte invasion events and advance vaccine and drug development. Proceedings of the National Academy of Sciences of the United States of America, 107, 1437814383.
  • Breuer, W., Epsztejn, S. & Cabantchik, Z.I. (1995a) Iron acquired from transferrin by K562 cells is delivered into a cytoplasmic pool of chelatable iron(II). The Journal of Biological Chemistry, 270, 2420924215.
  • Breuer, W., Epsztejn, S., Millgram, P. & Cabantchik, I.Z. (1995b) Transport of iron and other transition metals into cells as revealed by a fluorescent probe. The American Journal of Physiology, 268, C13541361.
  • Breuer, W., Epsztejn, S. & Cabantchik, Z.I. (1996) Dynamics of the cytosolic chelatable iron pool of K562 cells. FEBS letters, 382, 304308.
  • Cook, J.D. & Skikne, B.S. (1989) Iron deficiency: definition and diagnosis. Journal of Internal Medicine, 226, 349355.
  • El Tahir, A., Malhotra, P. & Chauhan, V.S. (2003) Uptake of proteins and degradation of human serum albumin by Plasmodium falciparum-infected human erythrocytes. Malaria Journal, 2, 11.
  • Epsztejn, S., Kakhlon, O., Glickstein, H., Breuer, W. & Cabantchik, I. (1997) Fluorescence analysis of the labile iron pool of mammalian cells. Analytical Biochemistry, 248, 3140.
  • Ferrer, P., Tripathi, A.K., Clark, M.A., Hand, C.C., Rienhoff, H.Y. Jr & Sullivan, D.J. Jr (2012) Antimalarial iron chelator, FBS0701, shows asexual and gametocyte Plasmodium falciparum activity and single oral dose cure in a murine malaria model. PLoS ONE, 7, e37171.
  • Fritsche, G., Larcher, C., Schennach, H. & Weiss, G. (2001) Regulatory Interactions between Iron and Nitric Oxide Metabolism for Immune Defense against Plasmodium falciparum Infection. Journal of Infectious Diseases, 183, 13881394.
  • Fu, Y., Tilley, L., Kenny, S. & Klonis, N. (2010) Dual labeling with a far red probe permits analysis of growth and oxidative stress in P. falciparum-infected erythrocytes. Cytometry. Part A: The Journal of the International Society for Analytical Cytology, 77, 253263.
  • Gordeuk, V., Thuma, P., Brittenham, G., McLaren, C., Parry, D., Backenstose, A., Biemba, G., Msiska, R., Holmes, L. & McKinley, E. (1992) Effect of iron chelation therapy on recovery from deep coma in children with cerebral malaria. The New England Journal of Medicine, 327, 14731477.
  • Haldar, K., Henderson, C.L. & Cross, G.A. (1986) Identification of the parasite transferrin receptor of Plasmodium falciparum-infected erythrocytes and its acylation via 1,2-diacyl-sn-glycerol. Proceedings of the National Academy of Sciences of the United States of America, 83, 85658569.
  • Hayward, R., Saliba, K.J. & Kirk, K. (2006) The pH of the digestive vacuole of Plasmodium falciparum is not associated with chloroquine resistance. Journal of Cell Science, 119, 10161025.
  • Hershko, C. & Peto, T.E. (1988) Deferoxamine inhibition of malaria is independent of host iron status. The Journal of Experimental Medicine, 168, 375387.
  • Loyevsky, M., John, C., Dickens, B., Hu, V., Miller, J.H. & Gordeuk, V.R. (1999) Chelation of iron within the erythrocytic Plasmodium falciparum parasite by iron chelators. Molecular and Biochemical Parasitology, 101, 4359.
  • Marvin, R.G., Wolford, J.L., Kidd, M.J., Murphy, S., Ward, J., Que, E.L., Mayer, M.L., Penner-Hahn, J.E., Haldar, K. & O'Halloran, T.V. (2012) Fluxes in ‘Free’ and Total Zinc Are Essential for Progression of Intraerythrocytic Stages of Plasmodium falciparum. Chemistry & Biology, 19, 731741.
  • Murray, M.J., Murray, N.J., Murray, A.B. & Murray, M.B. (1975) Refeeding-malaria and hyperferraemia. Lancet, 1, 653654.
  • Nairz, M., Theurl, I., Ludwiczek, S., Theurl, M., Mair, S.M., Fritsche, G. & Weiss, G. (2007) The co-ordinated regulation of iron homeostasis in murine macrophages limits the availability of iron for intracellular Salmonella typhimurium. Cellular Microbiology, 9, 21262140.
  • Nguitragool, W., Bokhari, A.A.B., Pillai, A.D., Rayavara, K., Sharma, P., Turpin, B., Aravind, L. & Desai, S.A. (2011) Malaria parasite clag3 genes determine channel-mediated nutrient uptake by infected red blood cells. Cell, 145, 665677.
  • Oppenheimer, S.J. (2001) Iron and its relation to immunity and infectious disease. The Journal of Nutrition, 131, 616S633S; discussion 633S–635S.
  • Paradkar, P.N., De Domenico, I., Durchfort, N., Zohn, I., Kaplan, J. & Ward, D.M. (2008) Iron depletion limits intracellular bacterial growth in macrophages. Blood, 112, 866874.
  • Pollack, S. & Fleming, J. (1984) Plasmodium falciparum takes up iron from transferrin. British Journal of Haematology, 58, 289293.
  • Pouvelle, B., Spiegel, R., Hsiao, L., Howard, R.J., Morris, R.L., Thomas, A.P. & Taraschi, T.F. (1991) Direct access to serum macromolecules by intraerythrocytic malaria parasites. Nature, 353, 7375.
  • Prus, E. & Fibach, E. (2008a) The labile iron pool in human erythroid cells. British Journal of Haematology, 142, 301307.
  • Prus, E. & Fibach, E. (2008b) Flow cytometry measurement of the labile iron pool in human hematopoietic cells. Cytometry. Part A: The Journal of the International Society for Analytical Cytology, 73, 2227.
  • Rodriguez, M.H. & Jungery, M. (1986) A protein on Plasmodium falciparum-infected erythrocytes functions as a transferrin receptor. Nature, 324, 388391.
  • Sanchez-Lopez, R. & Haldar, K. (1992) A transferrin-independent iron uptake activity in Plasmodium falciparum-infected and uninfected erythrocytes. Molecular and Biochemical Parasitology, 55, 920.
  • Sazawal, S., Black, R.E., Ramsan, M., Chwaya, H.M., Stoltzfus, R.J., Dutta, A., Dhingra, U., Kabole, I., Deb, S., Othman, M.K. & Kabole, F.M. (2006) Effects of routine prophylactic supplementation with iron and folic acid on admission to hospital and mortality in preschool children in a high malaria transmission setting: community-based, randomised, placebo-controlled trial. Lancet, 367, 133143.
  • Scholl, P.F., Tripathi, A.K. & Sullivan, D.J. (2005) Bioavailable iron and heme metabolism in Plasmodium falciparum. Current Topics in Microbiology and Immunology, 295, 293324.
  • Schümann, K., Kroll, S., Romero-Abal, M.-E., Georgiou, N.A., Marx, J.J.M., Weiss, G. & Solomons, N.W. (2012) Impact of oral iron challenges on circulating non-transferrin-bound iron in healthy Guatemalan males. Annals of Nutrition & Metabolism, 60, 98107.
  • Sigala, P.A., Crowley, J.R., Hsieh, S., Henderson, J.P. & Goidberg, D.E. (2012) Direct tests of enzymatic heme degradation by the malaria parasite Plasmodium falciparum. Journal of Biological Chemistry, 287, 3779337807.
  • Sinnis, P., Willnow, T.E., Briones, M.R., Herz, J. & Nussenzweig, V. (1996) Remnant lipoproteins inhibit malaria sporozoite invasion of hepatocytes. The Journal of Experimental Medicine, 184, 945954.
  • Skaar, E.P. (2010) The battle for iron between bacterial pathogens and their vertebrate hosts. PLoS Pathogens, 6, e1000949.
  • Smith, A.W., Hendrickse, R.G., Harrison, C., Hayes, R.J. & Greenwood, B.M. (1989) The effects on malaria of treatment of iron-deficiency anaemia with oral iron in Gambian children. Annals of Tropical Paediatrics, 9, 1723.
  • Tenopoulou, M., Kurz, T., Doulias, P.-T., Galaris, D. & Brunk, U.T. (2007) Does the calcein-AM method assay the total cellular ‘labile iron pool’ or only a fraction of it? The Biochemical Journal, 403, 261266.
  • Tsien, R.Y. (1989) Fluorescent probes of cell signaling. Annual Review of Neuroscience, 12, 227253.
  • Vander Jagt, D.L., Intress, C., Heidrich, J.E., Mrema, J.E., Rieckmann, K.H. & Heidrich, H.G. (1982) Marker enzymes of Plasmodium falciparum and human erythrocytes as indicators of parasite purity. Journal of Parasitology, 68, 106871.
  • Weiss, G., Thuma, P.E., Mabeza, G., Werner, E.R., Herold, M. & Gordeuk, V.R. (1997) Modulatory potential of iron chelation therapy on nitric oxide formation in cerebral malaria. The Journal of Infectious Diseases, 175, 226230.
  • WHO. (2011) World Malaria Report 2011. Available at: http://www.who.int/malaria/world_malaria_report_2011/en/ [Accessed August 13, 2012].