Type II fatty acid synthesis is essential only for malaria parasite late liver stage development

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Abstract

Intracellular malaria parasites require lipids for growth and replication. They possess a prokaryotic type II fatty acid synthesis (FAS II) pathway that localizes to the apicoplast plastid organelle and is assumed to be necessary for pathogenic blood stage replication. However, the importance of FAS II throughout the complex parasite life cycle remains unknown. We show in a rodent malaria model that FAS II enzymes localize to the sporozoite and liver stage apicoplast. Targeted deletion of FabB/F, a critical enzyme in fatty acid synthesis, did not affect parasite blood stage replication, mosquito stage development and initial infection in the liver. This was confirmed by knockout of FabZ, another critical FAS II enzyme. However, FAS II-deficient Plasmodium yoelii liver stages failed to form exo-erythrocytic merozoites, the invasive stage that first initiates blood stage infection. Furthermore, deletion of FabI in the human malaria parasite Plasmodium falciparum did not show a reduction in asexual blood stage replication in vitro. Malaria parasites therefore depend on the intrinsic FAS II pathway only at one specific life cycle transition point, from liver to blood.

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Most cited references 48

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Interest in mapping the global distribution of malaria is motivated by a need to define populations at risk for appropriate resource allocation and to provide a robust framework for evaluating its global economic impact. Comparison of older and more recent malaria maps shows how the disease has been geographically restricted, but it remains entrenched in poor areas of the world with climates suitable for transmission. Here we provide an empirical approach to estimating the number of clinical events caused by Plasmodium falciparum worldwide, by using a combination of epidemiological, geographical and demographic data. We estimate that there were 515 (range 300-660) million episodes of clinical P. falciparum malaria in 2002. These global estimates are up to 50% higher than those reported by the World Health Organization (WHO) and 200% higher for areas outside Africa, reflecting the WHO's reliance upon passive national reporting for these countries. Without an informed understanding of the cartography of malaria risk, the global extent of clinical disease caused by P. falciparum will continue to be underestimated.

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The completion of the genome sequence for Plasmodium falciparum, the species responsible for most malaria human deaths, has the potential to reveal hundreds of new drug targets and proteins involved in pathogenesis. However, only approximately 35% of the genes code for proteins with an identifiable function. The absence of routine genetic tools for studying Plasmodium parasites suggests that this number is unlikely to change quickly if conventional serial methods are used to characterize encoded proteins. Here, we use a high-density oligonucleotide array to generate expression profiles of human and mosquito stages of the malaria parasite's life cycle. Genes with highly correlated levels and temporal patterns of expression were often involved in similar functions or cellular processes.

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Author and article information

Journal

Journal ID (nlm-ta): Cell Microbiol

Journal ID (publisher-id): cmi

Title: Cellular Microbiology

Publisher: Blackwell Publishing Ltd

ISSN (Print): 1462-5814

ISSN (Electronic): 1462-5822

Publication date (Print): March 2009

Publication date (Electronic): 18 December 2008

Volume: 11

Issue: 3

Pages: 506-520

Affiliations

[1 ]Seattle Biomedical Research Institute Seattle, WA 98109, USA

[2 ]The Walter and Eliza Hall Institute of Medical Research Melbourne, Victoria, Australia

[3 ]Department of Global Health, University of Washington Seattle, WA 98195, USA

Author notes

*For correspondence. E-mail stefan.kappe@ 123456sbri.org ; Tel. (+1) 206 256 7205; Fax (+1) 206 256 7229.

Article

DOI: 10.1111/j.1462-5822.2008.01270.x

PMC ID: 2688669

PubMed ID: 19068099

SO-VID: fa891da2-6934-440e-8f22-c2ed6383f695

License:

Re-use of this article is permitted in accordance with the Creative Commons Deed, Attribution 2.5, which does not permit commercial exploitation.

History

Date received : 19 November 2008

Date accepted : 29 November 2008

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