Abstract
Plasmodium falciparum is responsible for the majority of life-threatening cases of malaria. Plasmodia species cannot synthesize purines de novo, whereas mammalian cells obtain purines from de novo synthesis or by purine salvage. Hypoxanthine is proposed to be the major source of purines for P. falciparum growth. It is produced from inosine phosphorolysis by purine nucleoside phosphorylase (PNP). Immucillins are powerful transition state analogue inhibitors of mammalian PNP and also inhibit P. falciparum PNP as illustrated in the accompanying article (Kicska, G. A., Tyler, P. C., Evans, G. B., Furneaux, R. H., Kim, K., and Schramm, V. L. (2002) J. Biol. Chem. 277, 3219-3225). This work tests the hypothesis that erythrocyte and P. falciparum PNP are essential elements for growth and survival of the parasite in culture. Immucillin-H reduces the incorporation of inosine but not hypoxanthine into nucleic acids of P. falciparum and kills P. falciparum cultured in human erythrocytes with an IC(50) of 35 nm. Growth inhibition by Imm-H is reversed by the addition of hypoxanthine but not inosine, demonstrating the metabolic block at PNP. The concentration of Imm-H required for inhibition of parasite growth varies as a function of culture hematocrit, reflecting stoichiometric titration of human erythrocyte PNP by the inhibitor. Human and P. falciparum PNPs demonstrate different specificity for inhibition by immucillins, with the 2'-deoxy analogues showing marked preference for the human enzyme. The IC(50) values for immucillin analogue toxicity to P. falciparum cultures indicate that inhibition of PNP in both the erythrocytes and the parasite is necessary to induce a purine-less death.
Highlights
The dissociation constants for immucillins with the human and parasite PNPs are differentially affected by inhibitor structure
The change from Imm-H to its 5Ј-deoxy analogue causes a 130-fold increase in the dissociation constant for the human enzyme but only a 12-fold increase for the parasite enzyme, suggesting the 5Ј-hydroxyl plays a greater role in transition state stabilization in the human enzyme. These differences imply that the catalytic site features of P. falciparum PNP may be exploited to produce immucillins that selectively inhibit the PNP isozyme most responsible for survival of the parasite
Summary and Conclusion—Immucillins prevent the growth of cultured P. falciparum through the action of PNP inhibition, leading to purine starvation
Summary
The dissociation constants for immucillins with the human and parasite PNPs are differentially affected by inhibitor structure. 2Ј-deoxy-Imm-H and 2Ј-deoxy-Imm-G bind with near equal affinity as Imm-H and Imm-G to the human enzyme but with decreased binding affinity for the Plasmodium enzyme by 3–10-fold.
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