Abstract
Human African Trypanosomiasis is a vector-borne disease of sub-Saharan Africa that causes significant morbidity and mortality. Current therapies have many drawbacks, and there is an urgent need for new, better medicines. Ideally such new treatments should be fast-acting cidal agents that cure the disease in as few doses as possible. Screening assays used for hit-discovery campaigns often do not distinguish cytocidal from cytostatic compounds and further detailed follow-up experiments are required. Such studies usually do not have the throughput required to test the large numbers of hits produced in a primary high-throughput screen. Here, we present a 384-well assay that is compatible with high-throughput screening and provides an initial indication of the cidal nature of a compound. The assay produces growth curves at ten compound concentrations by assessing trypanosome counts at 4, 24 and 48 hours after compound addition. A reduction in trypanosome counts over time is used as a marker for cidal activity. The lowest concentration at which cell killing is seen is a quantitative measure for the cidal activity of the compound. We show that the assay can identify compounds that have trypanostatic activity rather than cidal activity, and importantly, that results from primary high-throughput assays can overestimate the potency of compounds significantly. This is due to biphasic growth inhibition, which remains hidden at low starting cell densities and is revealed in our static-cidal assay. The assay presented here provides an important tool to follow-up hits from high-throughput screening campaigns and avoid progression of compounds that have poor prospects due to lack of cidal activity or overestimated potency.
Highlights
Human African Trypanosomiasis (HAT) or sleeping sickness is an endemic disease of sub-Saharan Africa
It is caused by two subspecies of Trypanosoma brucei, T. b. rhodesiense and T. b. gambiense, the latter of which is responsible for 95% of all cases of HAT [1]
We show that the starting cell density used in the T. brucei growth assay can have a significant effect on the shape of dose response curves, and that important information regarding the mode of action of a compound can remain hidden at low starting densities as used commonly in T. brucei screening assays
Summary
Human African Trypanosomiasis (HAT) or sleeping sickness is an endemic disease of sub-Saharan Africa. It is caused by two subspecies of Trypanosoma brucei, T. b. Gambiense, the latter of which is responsible for 95% of all cases of HAT [1]. Progress has been made in reducing the incidence of the disease and in 2009, for the first time in 50 years, the number of new reported cases has dropped below 10,000 [2]. The earlystage drug treatments are pentamidine and suramin for T. b. Rhodesiense respectively, whereas late stage disease (when the parasites have spread to the central nervous system) is treated with nifurtimox eflornithine combination therapy (NECT) for T. b. It is clear that it is essential to continue the development of new drugs
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