PR001480 (Project)

Description:The spread of artemisinin resistant Plasmodium falciparum parasites is of global concern and highlights the need to identify new antimalarials for future treatments. Azithromycin, a macrolide antibiotic used clinically against malaria, kills parasites via two mechanisms: ‘delayed death’ by inhibiting the bacterium-like ribosomes of the apicoplast, and ‘quick-killing’ that kills rapidly across the entire blood stage development. Here, 22 azithromycin analogues were explored for delayed death and quick-killing activities against P. falciparum (the most virulent human malaria) and P. knowlesi (a monkey parasite that frequently infects humans). Seventeen analogues showed improved quick-killing against both Plasmodium species, with up to 38 to 20-fold higher potency over azithromycin after less than 48 or 28 hours of treatment for P. falciparum and P. knowlesi, respectively. Lead analogues had limited activity against the related parasite Toxoplasma gondii and were >5-fold more selective against malaria than human cells. Quick-killing analogues maintained activity throughout the blood stage lifecycle including ring stages of P. falciparum parasites (<12 hrs treatment). Isopentenyl pyrophosphate supplemented parasites that lacked an apicoplast were equally sensitive to quick-killing analogues, confirming that the quick killing activity of these drugs was not directed at the apicoplast. Metabolomic profiling of parasites subjected to the lead analogue revealed a similar profile to chloroquine treatment, suggesting that the food-vacuole is a likely target of this drugs activity. The azithromycin analogues characterised in this study expanded the structural diversity over previously reported quick-killing compounds and provide new starting points to develop azithromycin analogues with quick-killing antimalarial activity.
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A subject produced as part of the PR001480 project

Biosample

A biosample from Metabolomics produced as part of the PR001480 project

Biosample

A biosample from Metabolomics produced as part of the PR001480 project

File

A 291 MB file from Metabolomics produced from OBI:0003097 as part of the PR001480 project

Biosample

A biosample from Metabolomics produced as part of the PR001480 project

Biosample

A biosample from Metabolomics produced as part of the PR001480 project

Biosample

A biosample from Metabolomics produced as part of the PR001480 project

Biosample

A biosample from Metabolomics produced as part of the PR001480 project

  • Subject

    A subject produced as part of the PR001480 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR001480 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR001480 project


  • File

    A 291 MB file from Metabolomics produced from OBI:0003097 as part of the PR001480 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR001480 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR001480 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR001480 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR001480 project

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