AI Article Synopsis
- High genetic and phenotypic variability in leishmanial species makes it difficult to create broad-spectrum antileishmanial drugs, prompting the use of diverse species screening panels.
- A high content assay was developed to screen 1280 small molecules against clinically relevant cutaneous and visceral leishmanial species using THP-1 macrophages, assessing both the drug's effectiveness and toxicity.
- Out of 51 active compounds, only 14 demonstrated broad-spectrum efficacy, with a few showing over 70% activity, indicating a need for more comprehensive screening strategies for discovering effective antileishmanial agents.
Article Abstract
High genetic and phenotypic variability between species and strains within species make the development of broad-spectrum antileishmanial drugs challenging. Thus, screening panels consisting of several diverse species can be useful in enabling compound prioritization based on their spectrum of activity. In this study, a robust and reproducible high content assay was developed, and 1280 small molecules were simultaneously screened against clinically relevant cutaneous and visceral species: , , and . The assay is based on THP-1 macrophages infected with stationary phase promastigotes and posterior evaluation of both compound antileishmanial activity and host cell toxicity. The profile of compound activity was species-specific, and out of 51 active compounds, only 14 presented broad-spectrum activity against the three species, with activities ranging from 52% to 100%. Notably, the compounds CB1954, Clomipramine, Maprotiline, Protriptyline, and ML-9 presented pan-leishmanial activity, with efficacy greater than 70%. The results highlight the reduced number of compound classes with pan-leishmanial activity that might be available from diversity libraries, emphasizing the need to screen active compounds against a panel of species and strains. The assay reported here can be adapted to virtually any species without the need for genetic modification of parasites, providing the basis for the discovery of broad spectrum anti-leishmanial agents.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7321149 | PMC |
| http://dx.doi.org/10.3390/molecules25112551 | DOI Listing |
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