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Mutations in the pantothenate kinase of Plasmodium falciparum confer diverse sensitivity profiles to antiplasmodial pantothenate analogues.

Erick T TjhinChristina SpryAlan L SewellAnnabelle HoeglLeanne BarnardAnna E SextonGhizal SiddiquiVanessa M HowiesonAlexander G MaierDarren John CreekErick StraussRodolfo MarquezKarine AuclairKevin J Saliba
Published in: PLoS pathogens (2018)
The malaria-causing blood stage of Plasmodium falciparum requires extracellular pantothenate for proliferation. The parasite converts pantothenate into coenzyme A (CoA) via five enzymes, the first being a pantothenate kinase (PfPanK). Multiple antiplasmodial pantothenate analogues, including pantothenol and CJ-15,801, kill the parasite by targeting CoA biosynthesis/utilisation. Their mechanism of action, however, remains unknown. Here, we show that parasites pressured with pantothenol or CJ-15,801 become resistant to these analogues. Whole-genome sequencing revealed mutations in one of two putative PanK genes (Pfpank1) in each resistant line. These mutations significantly alter PfPanK activity, with two conferring a fitness cost, consistent with Pfpank1 coding for a functional PanK that is essential for normal growth. The mutants exhibit a different sensitivity profile to recently-described, potent, antiplasmodial pantothenate analogues, with one line being hypersensitive. We provide evidence consistent with different pantothenate analogue classes having different mechanisms of action: some inhibit CoA biosynthesis while others inhibit CoA-utilising enzymes.
Keyphrases
  • plasmodium falciparum
  • molecular docking
  • fatty acid
  • physical activity
  • tyrosine kinase
  • structure activity relationship
  • genome wide
  • body composition
  • gene expression
  • protein kinase
  • dna methylation
  • trypanosoma cruzi