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Metabolic Survival Adaptations of Plasmodium falciparum Exposed to Sublethal Doses of Fosmidomycin

Shivendra G. Tewari, Krithika Rajaram, Russell Swift, Jaques Reifman, Sean T. Prigge, Anders Wallqvist

2021Antimicrobial Agents and Chemotherapy26 citationsDOIOpen Access PDF

Abstract

to characterize the metabolic adaptations of the parasite in response to fosmidomycin treatment. Our simulations showed that, in treated parasites, the synthesis of purine-based nucleotides increased, whereas the synthesis of phosphatidylcholine during the trophozoite and schizont stages decreased. Specifically, the increased polyamine synthesis led to increased nucleotide synthesis, while the reduced methyl-group cycling led to reduced phospholipid synthesis and methyltransferase activities. These results indicate that fosmidomycin-treated parasites compensate for the loss of prenylation modifications by directly altering processes that affect nucleotide synthesis and ribosomal biogenesis to control the rate of RNA translation during the IDC. This also suggests that combination therapies with antibiotics that target the compensatory response of the parasite, such as nucleotide synthesis or ribosomal biogenesis, may be more effective than treating the parasite with fosmidomycin alone.

Topics & Concepts

ApicoplastPlasmodium falciparumBiologyMalariaParasite hostingApicomplexaProtozoaPlasmodium (life cycle)OrganelleAdaptation (eye)MicrobiologyBiochemistryImmunologyComputer scienceNeuroscienceWorld Wide WebMalaria Research and ControlPlant biochemistry and biosynthesisTrypanosoma species research and implications