Last Updated: 27/05/2025
Cofactor metabolism and mitochondrial function in malaria parasites
Objectives
This project will study an essential enzyme cofactor called lipoate and its metabolism in Plasmodium falciparum. The proposed studies are focused on two aspects of lipoate scavenging and employ a combination of biochemical, cell biology and genetic approaches.
Plasmodium parasites are responsible for hundreds of millions of malaria cases annually. During the asexual stages of development in red blood cells, malaria parasites acquire certain nutrients from human serum while retaining the ability to synthesize others. Studies demonstrate that erythrocytic stage parasites are auxotrophic for lipoate, even though they contain a metabolic pathway to synthesize this cofactor. Proteins in the apicoplast organelle rely on lipoate synthesis while proteins in the parasite mitochondrion rely on scavenging and cannot obtain lipoate synthesized in the apicoplast. The first aim is to define the essentail roles of lipoate-dependent proteins and identify the factors required to support these activities in the parasite mitochondrion. The second aim will probe the mechanism of lipoate uptake and attachment to mitochondrial proteins in order to understand how, when and why this process is gated by redox potential. These studies will forge a detailed link between the lipoate attachment enzymes and their protein substrates. By virtue of relying on a host nutrient, these proteins represent a vulnerable aspect of parasite biology which could be targeted at several levels.
Aug 2023 — Jul 2027
$760,644
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