malarial parasite Plasmodium falciparum imports the human protein peroxiredoxin 2 for peroxide detoxification

Coevolution of the malarial parasite and its human host has resulted in a complex network of interactions contributing to the homeodynamics of the host-parasite unit. As a rapidly growing and multiplying organism, Plasmodium falciparum depends on an adequate antioxidant defense system that is effici...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2009-08, Vol.106 (32), p.13323-13328
Hauptverfasser: Koncarevic, Sasa, Rohrbach, Petra, Deponte, Marcel, Krohne, Georg, Prieto, Judith Helena, Yates, John III, Rahlfs, Stefan, Becker, Katja
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Sprache:eng
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Zusammenfassung:Coevolution of the malarial parasite and its human host has resulted in a complex network of interactions contributing to the homeodynamics of the host-parasite unit. As a rapidly growing and multiplying organism, Plasmodium falciparum depends on an adequate antioxidant defense system that is efficient despite the absence of genuine catalase and glutathione peroxidase. Using different experimental approaches, we demonstrate that P. falciparum imports the human redox-active protein peroxiredoxin 2 (hPrx-2, hTPx1) into its cytosol. As shown by confocal microscopy and immunogold electron microscopy, hPrx-2 is also present in the Maurer's clefts, organelles that are described as being involved in parasite protein export. Enzyme kinetic analyses prove that hPrx-2 accepts Plasmodium cytosolic thioredoxin 1 as a reducing substrate. hPrx-2 accounts for roughly 50% of thioredoxin peroxidase activity in parasite extracts, thus indicating a functional role of hPrx-2 as an enzymatic scavenger of peroxides in the parasite. Under chloroquine treatment, a drug promoting oxidative stress, the abundance of hPrx-2 in the parasite increases significantly. P. falciparum has adapted to adopt the hPrx-2, thereby using the host protein for its own purposes.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0905387106