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- Title
A high throughput screen for next-generation leads targeting malaria parasite transmission.
- Authors
Delves, Michael J.; Miguel-Blanco, Celia; Matthews, Holly; Molina, Irene; Ruecker, Andrea; Yahiya, Sabrina; Straschil, Ursula; Abraham, Matthew; León, María Luisa; Fischer, Oliver J.; Rueda-Zubiaurre, Ainoa; Brandt, Jochen R.; Cortés, Álvaro; Barnard, Anna; Fuchter, Matthew J.; Calderón, Félix; Winzeler, Elizabeth A.; Sinden, Robert E.; Herreros, Esperanza; Gamo, Francisco J.
- Abstract
Spread of parasite resistance to artemisinin threatens current frontline antimalarial therapies, highlighting the need for new drugs with alternative modes of action. Since only 0.2-1% of asexual parasites differentiate into sexual, transmission-competent forms, targeting this natural bottleneck provides a tangible route to interrupt disease transmission and mitigate resistance selection. Here we present a high-throughput screen of gametogenesis against a ~70,000 compound diversity library, identifying seventeen drug-like molecules that target transmission. Hit molecules possess varied activity profiles including male-specific, dual acting male-female and dual-asexual-sexual, with one promising N-((4-hydroxychroman-4-yl)methyl)-sulphonamide scaffold found to have sub-micromolar activity in vitro and in vivo efficacy. Development of leads with modes of action focussed on the sexual stages of malaria parasite development provide a previously unexplored base from which future therapeutics can be developed, capable of preventing parasite transmission through the population. Sexual forms of malaria parasites are responsible for transmission to the mosquito. Anti-malarial drug resistance remains a serious problem and requires advent of new drug therapies. Here, the authors present a high-throughput screen of potential antimalarial compounds, identifying seventeen drug-like molecules specifically targeting transmission.
- Publication
Nature Communications, 2018, Vol 9, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-018-05777-2