Journal
PLOS NEGLECTED TROPICAL DISEASES
Volume 15, Issue 10, Pages -Publisher
PUBLIC LIBRARY SCIENCE
DOI: 10.1371/journal.pntd.0009870
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Funding
- Wellcome Trust [203134/Z/16/Z, 204672/Z/16/Z, 218448/Z/19/Z]
- Wellcome Trust [204672/Z/16/Z, 218448/Z/19/Z] Funding Source: Wellcome Trust
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Chagas disease, caused by Trypanosoma cruzi, is a highly neglected tropical disease with inadequate current treatments; recent failures in clinical trials have led to the development of new model systems to better understand the reasons for these failures. A new live-imaging RoK assay has been introduced for T. cruzi, offering high reproducibility and high time-resolution data for clinical compounds and new entities, allowing for prioritization of fast-acting compounds and tracking of individual parasites' fate, among other benefits.
Chagas disease, caused by the protozoan intracellular parasite Trypanosoma cruzi, is a highly neglected tropical disease, causing significant morbidity and mortality in central and south America. Current treatments are inadequate, and recent clinical trials of drugs inhibiting CYP51 have failed, exposing a lack of understanding of how to translate laboratory findings to the clinic. Following these failures many new model systems have been developed, both in vitro and in vivo, that provide improved understanding of the causes for clinical trial failures. Amongst these are in vitro rate-of-kill (RoK) assays that reveal how fast compounds kill intracellular parasites. Such assays have shown clear distinctions between the compounds that failed in clinical trials and the standard of care. However, the published RoK assays have some key drawbacks, including low time-resolution and inability to track the same cell population over time. Here, we present a new, live-imaging RoK assay for intracellular T. cruzi that overcomes these issues. We show that the assay is highly reproducible and report high time-resolution RoK data for key clinical compounds as well as new chemical entities. The data generated by this assay allow fast acting compounds to be prioritised for progression, the fate of individual parasites to be tracked, shifts of mode-of-action within series to be monitored, better PKPD modelling and selection of suitable partners for combination therapy.
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