Identification and prioritization of novel anti-Wolbachia chemotypes from screening a 10,000-compound diversity library

Kelly L. Johnston; Darren A.N. Cook; Neil G. Berry; W. David Hong; Rachel H. Clare; Megan Goddard; Louise Ford; Gemma L. Nixon; Paul M. O’Neill; Stephen A. Ward; Mark J. Taylor

doi:10.1126/sciadv.aao1551

Identification and prioritization of novel anti-Wolbachia chemotypes from screening a 10,000-compound diversity library

Kelly L. Johnston, Darren A.N. Cook, Neil G. Berry, W. David Hong, Rachel H. Clare, Megan Goddard, Louise Ford, Gemma L. Nixon, Paul M. O’Neill, Stephen A. Ward, Mark J. Taylor^*

^*Corresponding author for this work

Biology

Research output: Contribution to journal › Article (journal) › peer-review

25 Citations (Scopus)

Abstract

Lymphatic filariasis and onchocerciasis are two important neglected tropical diseases (NTDs) that cause severe disability. Control efforts are hindered by the lack of a safe macrofilaricidal drug. Targeting the Wolbachia bacterial endosymbionts in these parasites with doxycycline leads to a macrofilaricidal outcome, but protracted treatment regimens and contraindications restrict its widespread implementation. The Anti-Wolbachia consortium aims to develop improved anti-Wolbachia drugs to overcome these barriers. We describe the first screening of a large, diverse compound library against Wolbachia. This whole-organism screen, streamlined to reduce bottlenecks, produced a hit rate of 0.5%. Chemoinformatic analysis of the top 50 hits led to the identification of six structurally diverse chemotypes, the disclosure of which could offer interesting avenues of investigation to other researchers active in this field. An example of hit-to-lead optimization is described to further demonstrate the potential of developing these high-quality hit series as safe, efficacious, and selective anti-Wolbachia macrofilaricides.

Original language	English
Article number	aao1551
Pages (from-to)	1-10
Journal	Science advances
Volume	3
Issue number	9
DOIs	https://doi.org/10.1126/sciadv.aao1551
Publication status	Published - 30 Sept 2017

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Johnston, K. L., Cook, D. A. N., Berry, N. G., David Hong, W., Clare, R. H., Goddard, M., Ford, L., Nixon, G. L., O’Neill, P. M., Ward, S. A., & Taylor, M. J. (2017). Identification and prioritization of novel anti-Wolbachia chemotypes from screening a 10,000-compound diversity library. Science advances, 3(9), 1-10. Article aao1551. https://doi.org/10.1126/sciadv.aao1551

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title = "Identification and prioritization of novel anti-Wolbachia chemotypes from screening a 10,000-compound diversity library",

abstract = "Lymphatic filariasis and onchocerciasis are two important neglected tropical diseases (NTDs) that cause severe disability. Control efforts are hindered by the lack of a safe macrofilaricidal drug. Targeting the Wolbachia bacterial endosymbionts in these parasites with doxycycline leads to a macrofilaricidal outcome, but protracted treatment regimens and contraindications restrict its widespread implementation. The Anti-Wolbachia consortium aims to develop improved anti-Wolbachia drugs to overcome these barriers. We describe the first screening of a large, diverse compound library against Wolbachia. This whole-organism screen, streamlined to reduce bottlenecks, produced a hit rate of 0.5\%. Chemoinformatic analysis of the top 50 hits led to the identification of six structurally diverse chemotypes, the disclosure of which could offer interesting avenues of investigation to other researchers active in this field. An example of hit-to-lead optimization is described to further demonstrate the potential of developing these high-quality hit series as safe, efficacious, and selective anti-Wolbachia macrofilaricides.",

author = "Johnston, \{Kelly L.\} and Cook, \{Darren A.N.\} and Berry, \{Neil G.\} and \{David Hong\}, W. and Clare, \{Rachel H.\} and Megan Goddard and Louise Ford and Nixon, \{Gemma L.\} and O{\textquoteright}Neill, \{Paul M.\} and Ward, \{Stephen A.\} and Taylor, \{Mark J.\}",

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doi = "10.1126/sciadv.aao1551",

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AU - David Hong, W.

AU - Clare, Rachel H.

AU - Goddard, Megan

AU - Ford, Louise

AU - Nixon, Gemma L.

AU - O’Neill, Paul M.

AU - Ward, Stephen A.

AU - Taylor, Mark J.

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N2 - Lymphatic filariasis and onchocerciasis are two important neglected tropical diseases (NTDs) that cause severe disability. Control efforts are hindered by the lack of a safe macrofilaricidal drug. Targeting the Wolbachia bacterial endosymbionts in these parasites with doxycycline leads to a macrofilaricidal outcome, but protracted treatment regimens and contraindications restrict its widespread implementation. The Anti-Wolbachia consortium aims to develop improved anti-Wolbachia drugs to overcome these barriers. We describe the first screening of a large, diverse compound library against Wolbachia. This whole-organism screen, streamlined to reduce bottlenecks, produced a hit rate of 0.5%. Chemoinformatic analysis of the top 50 hits led to the identification of six structurally diverse chemotypes, the disclosure of which could offer interesting avenues of investigation to other researchers active in this field. An example of hit-to-lead optimization is described to further demonstrate the potential of developing these high-quality hit series as safe, efficacious, and selective anti-Wolbachia macrofilaricides.

AB - Lymphatic filariasis and onchocerciasis are two important neglected tropical diseases (NTDs) that cause severe disability. Control efforts are hindered by the lack of a safe macrofilaricidal drug. Targeting the Wolbachia bacterial endosymbionts in these parasites with doxycycline leads to a macrofilaricidal outcome, but protracted treatment regimens and contraindications restrict its widespread implementation. The Anti-Wolbachia consortium aims to develop improved anti-Wolbachia drugs to overcome these barriers. We describe the first screening of a large, diverse compound library against Wolbachia. This whole-organism screen, streamlined to reduce bottlenecks, produced a hit rate of 0.5%. Chemoinformatic analysis of the top 50 hits led to the identification of six structurally diverse chemotypes, the disclosure of which could offer interesting avenues of investigation to other researchers active in this field. An example of hit-to-lead optimization is described to further demonstrate the potential of developing these high-quality hit series as safe, efficacious, and selective anti-Wolbachia macrofilaricides.

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Identification and prioritization of novel anti-Wolbachia chemotypes from screening a 10,000-compound diversity library

Abstract

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