Validation of the proteasome as a therapeutic target in plasmodium using an epoxyketone inhibitor with parasite-specific toxicity

Hao Li; Elizabeth L. Ponder; Martijn Verdoes; Kristijana H. Asbjornsdottir; Edgar Deu; Laura E. Edgington; Jeong Tae Lee; Christopher J. Kirk; Susan D. Demo; Kim C. Williamson; Matthew Bogyo

doi:10.1016/j.chembiol.2012.09.019

Validation of the proteasome as a therapeutic target in plasmodium using an epoxyketone inhibitor with parasite-specific toxicity

Hao Li, Elizabeth L. Ponder, Martijn Verdoes, Kristijana H. Asbjornsdottir, Edgar Deu, Laura E. Edgington, Jeong Tae Lee, Christopher J. Kirk, Susan D. Demo, Kim C. Williamson, Matthew Bogyo^*

^*Corresponding author for this work

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

80 Scopus citations

Abstract

The Plasmodium proteasome has been suggested to be a potential antimalarial drug target; however, toxicity of inhibitors has prevented validation of this enzyme in vivo. We report a screen of a library of 670 analogs of the recent US Food and Drug Administration-approved inhibitor, carfilzomib, to identify compounds that selectively kill parasites. We identified one compound, PR3, that has significant parasite killing activity in vitro but dramatically reduced toxicity in host cells. We found that this parasite-specific toxicity is not due to selective targeting of the Plasmodium proteasome over the host proteasome, but instead is due to a lack of activity against one of the human proteasome subunits. Subsequently, we used PR3 to significantly reduce parasite load in Plasmodium berghei infected mice without host toxicity, thus validating the proteasome as a viable antimalarial drug target.

Original language	English
Pages (from-to)	1535-1545
Number of pages	11
Journal	Chemistry and Biology
Volume	19
Issue number	12
DOIs	https://doi.org/10.1016/j.chembiol.2012.09.019
State	Published - 21 Dec 2012
Externally published	Yes

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10.1016/j.chembiol.2012.09.019

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Li, H., Ponder, E. L., Verdoes, M., Asbjornsdottir, K. H., Deu, E., Edgington, L. E., Lee, J. T., Kirk, C. J., Demo, S. D., Williamson, K. C., & Bogyo, M. (2012). Validation of the proteasome as a therapeutic target in plasmodium using an epoxyketone inhibitor with parasite-specific toxicity. Chemistry and Biology, 19(12), 1535-1545. https://doi.org/10.1016/j.chembiol.2012.09.019

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abstract = "The Plasmodium proteasome has been suggested to be a potential antimalarial drug target; however, toxicity of inhibitors has prevented validation of this enzyme in vivo. We report a screen of a library of 670 analogs of the recent US Food and Drug Administration-approved inhibitor, carfilzomib, to identify compounds that selectively kill parasites. We identified one compound, PR3, that has significant parasite killing activity in vitro but dramatically reduced toxicity in host cells. We found that this parasite-specific toxicity is not due to selective targeting of the Plasmodium proteasome over the host proteasome, but instead is due to a lack of activity against one of the human proteasome subunits. Subsequently, we used PR3 to significantly reduce parasite load in Plasmodium berghei infected mice without host toxicity, thus validating the proteasome as a viable antimalarial drug target.",

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AU - Li, Hao

AU - Ponder, Elizabeth L.

AU - Verdoes, Martijn

AU - Asbjornsdottir, Kristijana H.

AU - Deu, Edgar

AU - Edgington, Laura E.

AU - Lee, Jeong Tae

AU - Kirk, Christopher J.

AU - Demo, Susan D.

AU - Williamson, Kim C.

AU - Bogyo, Matthew

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AB - The Plasmodium proteasome has been suggested to be a potential antimalarial drug target; however, toxicity of inhibitors has prevented validation of this enzyme in vivo. We report a screen of a library of 670 analogs of the recent US Food and Drug Administration-approved inhibitor, carfilzomib, to identify compounds that selectively kill parasites. We identified one compound, PR3, that has significant parasite killing activity in vitro but dramatically reduced toxicity in host cells. We found that this parasite-specific toxicity is not due to selective targeting of the Plasmodium proteasome over the host proteasome, but instead is due to a lack of activity against one of the human proteasome subunits. Subsequently, we used PR3 to significantly reduce parasite load in Plasmodium berghei infected mice without host toxicity, thus validating the proteasome as a viable antimalarial drug target.

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