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J. Biol. Chem., Vol. 282, Issue 49, 35978-35987, December 7, 2007

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Roles for Two Aminopeptidases in Vacuolar Hemoglobin Catabolism in Plasmodium falciparum^*

From the Department of Biochemistry, Virginia Polytechnic Institute and State University, Blacksburg, Virginia 24061

During the erythrocytic stage of its life cycle, the human malaria parasite Plasmodium falciparum catabolizes large quantities of host-cell hemoglobin in an acidic organelle, the food vacuole. A current model for the catabolism of globin-derived oligopeptides invokes peptide transport out of the food vacuole followed by hydrolysis to amino acids by cytosolic aminopeptidases. To test this model, we have examined the roles of four parasite aminopeptidases during the erythrocytic cycle. Localization of tagged aminopeptidases, coupled with biochemical analysis of enriched food vacuoles, revealed the presence of amino acid-generating pathways in the food vacuole as well as the cytosol. Based on the localization data and in vitro assays, we propose a specific role for one of the plasmodial enzymes, aminopeptidase P, in the catabolism of proline-containing peptides in both the vacuole and the cytosol. We establish an apparent requirement for three of the four aminopeptidases (including the two food vacuole enzymes) for efficient parasite proliferation. To gain insight into the impact of aminopeptidase inhibition on parasite development, we examined the effect of the presence of amino acids in the culture medium of the parasite on the toxicity of the aminopeptidase inhibitor bestatin. The ability of bestatin to block parasite replication was only slightly affected when 19 of 20 amino acids were withdrawn from the medium, indicating that exogenous amino acids cannot compensate for the loss of aminopeptidase activity. Together, these results support the development of aminopeptidase inhibitors as novel chemotherapeutics directed against malaria.

Received for publication, May 2, 2007 , and in revised form, September 24, 2007.

^* This work was supported by Virginia Tech and the Thomas F. and Kate Miller Jeffress Memorial Trust. The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. Section 1734 solely to indicate this fact.

The on-line version of this article (available at http://www.jbc.org) contains supplemental "Experimental Procedures," additional references, Figs. S1-S9, and Tables S1 and S2.

¹ To whom correspondence should be addressed: 306 Engel Hall, Virginia Tech, Blacksburg, VA 24061. Tel.: 540-231-5729; Fax: 540-231-9070; E-mail: klemba{at}vt.edu.

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