Dual Plasmepsin-Targeting Antimalarial Agents Disrupt Multiple Stages of the Malaria Parasite Life Cycle

Artemisin combination therapy (ACT) is the main treatment option for malaria, which is caused by the intracellular parasite Plasmodium. However, increased resistance to ACT highlights the importance of finding new drugs. Recently, the aspartic proteases Plasmepsin IX and X (PMIX and PMX) were identi...

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Autores principales: Favuzza, Paola, de Lera Ruiz, Manuel, Thompson, Jennifer K., Triglia, Tony, Ngo, Anna, Steel, Ryan W.J., Vavrek, Marissa, Christensen, Janni, Healer, Julie, Boyce, Christopher, Guo, Zhuyan, Hu, Mengwei, Khan, Tanweer, Murgolo, Nicholas, Zhao, Lianyun, Penington, Jocelyn Sietsma, Reaksudsan, Kitsanapong, Jarman, Kate, Dietrich, Melanie H., Richardson, Lachlan, Guo, Kai-Yuan, Lopaticki, Sash, Tham, Wai-Hong, Rottmann, Matthias, Papenfuss, Tony, Robbins, Jonathan A., Boddey, Justin A., Sleebs, Brad E., Sabroux, Hélène Jousset, McCauley, John A., Olsen, David B., Cowman, Alan F.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7146544/
https://www.ncbi.nlm.nih.gov/pubmed/32109369
http://dx.doi.org/10.1016/j.chom.2020.02.005
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author Favuzza, Paola
de Lera Ruiz, Manuel
Thompson, Jennifer K.
Triglia, Tony
Ngo, Anna
Steel, Ryan W.J.
Vavrek, Marissa
Christensen, Janni
Healer, Julie
Boyce, Christopher
Guo, Zhuyan
Hu, Mengwei
Khan, Tanweer
Murgolo, Nicholas
Zhao, Lianyun
Penington, Jocelyn Sietsma
Reaksudsan, Kitsanapong
Jarman, Kate
Dietrich, Melanie H.
Richardson, Lachlan
Guo, Kai-Yuan
Lopaticki, Sash
Tham, Wai-Hong
Rottmann, Matthias
Papenfuss, Tony
Robbins, Jonathan A.
Boddey, Justin A.
Sleebs, Brad E.
Sabroux, Hélène Jousset
McCauley, John A.
Olsen, David B.
Cowman, Alan F.
author_facet Favuzza, Paola
de Lera Ruiz, Manuel
Thompson, Jennifer K.
Triglia, Tony
Ngo, Anna
Steel, Ryan W.J.
Vavrek, Marissa
Christensen, Janni
Healer, Julie
Boyce, Christopher
Guo, Zhuyan
Hu, Mengwei
Khan, Tanweer
Murgolo, Nicholas
Zhao, Lianyun
Penington, Jocelyn Sietsma
Reaksudsan, Kitsanapong
Jarman, Kate
Dietrich, Melanie H.
Richardson, Lachlan
Guo, Kai-Yuan
Lopaticki, Sash
Tham, Wai-Hong
Rottmann, Matthias
Papenfuss, Tony
Robbins, Jonathan A.
Boddey, Justin A.
Sleebs, Brad E.
Sabroux, Hélène Jousset
McCauley, John A.
Olsen, David B.
Cowman, Alan F.
author_sort Favuzza, Paola
collection PubMed
description Artemisin combination therapy (ACT) is the main treatment option for malaria, which is caused by the intracellular parasite Plasmodium. However, increased resistance to ACT highlights the importance of finding new drugs. Recently, the aspartic proteases Plasmepsin IX and X (PMIX and PMX) were identified as promising drug targets. In this study, we describe dual inhibitors of PMIX and PMX, including WM382, that block multiple stages of the Plasmodium life cycle. We demonstrate that PMX is a master modulator of merozoite invasion and direct maturation of proteins required for invasion, parasite development, and egress. Oral administration of WM382 cured mice of P. berghei and prevented blood infection from the liver. In addition, WM382 was efficacious against P. falciparum asexual infection in humanized mice and prevented transmission to mosquitoes. Selection of resistant P. falciparum in vitro was not achievable. Together, these show that dual PMIX and PMX inhibitors are promising candidates for malaria treatment and prevention.
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spelling pubmed-71465442020-04-13 Dual Plasmepsin-Targeting Antimalarial Agents Disrupt Multiple Stages of the Malaria Parasite Life Cycle Favuzza, Paola de Lera Ruiz, Manuel Thompson, Jennifer K. Triglia, Tony Ngo, Anna Steel, Ryan W.J. Vavrek, Marissa Christensen, Janni Healer, Julie Boyce, Christopher Guo, Zhuyan Hu, Mengwei Khan, Tanweer Murgolo, Nicholas Zhao, Lianyun Penington, Jocelyn Sietsma Reaksudsan, Kitsanapong Jarman, Kate Dietrich, Melanie H. Richardson, Lachlan Guo, Kai-Yuan Lopaticki, Sash Tham, Wai-Hong Rottmann, Matthias Papenfuss, Tony Robbins, Jonathan A. Boddey, Justin A. Sleebs, Brad E. Sabroux, Hélène Jousset McCauley, John A. Olsen, David B. Cowman, Alan F. Cell Host Microbe Article Artemisin combination therapy (ACT) is the main treatment option for malaria, which is caused by the intracellular parasite Plasmodium. However, increased resistance to ACT highlights the importance of finding new drugs. Recently, the aspartic proteases Plasmepsin IX and X (PMIX and PMX) were identified as promising drug targets. In this study, we describe dual inhibitors of PMIX and PMX, including WM382, that block multiple stages of the Plasmodium life cycle. We demonstrate that PMX is a master modulator of merozoite invasion and direct maturation of proteins required for invasion, parasite development, and egress. Oral administration of WM382 cured mice of P. berghei and prevented blood infection from the liver. In addition, WM382 was efficacious against P. falciparum asexual infection in humanized mice and prevented transmission to mosquitoes. Selection of resistant P. falciparum in vitro was not achievable. Together, these show that dual PMIX and PMX inhibitors are promising candidates for malaria treatment and prevention. Cell Press 2020-04-08 /pmc/articles/PMC7146544/ /pubmed/32109369 http://dx.doi.org/10.1016/j.chom.2020.02.005 Text en © 2020 The Authors http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Favuzza, Paola
de Lera Ruiz, Manuel
Thompson, Jennifer K.
Triglia, Tony
Ngo, Anna
Steel, Ryan W.J.
Vavrek, Marissa
Christensen, Janni
Healer, Julie
Boyce, Christopher
Guo, Zhuyan
Hu, Mengwei
Khan, Tanweer
Murgolo, Nicholas
Zhao, Lianyun
Penington, Jocelyn Sietsma
Reaksudsan, Kitsanapong
Jarman, Kate
Dietrich, Melanie H.
Richardson, Lachlan
Guo, Kai-Yuan
Lopaticki, Sash
Tham, Wai-Hong
Rottmann, Matthias
Papenfuss, Tony
Robbins, Jonathan A.
Boddey, Justin A.
Sleebs, Brad E.
Sabroux, Hélène Jousset
McCauley, John A.
Olsen, David B.
Cowman, Alan F.
Dual Plasmepsin-Targeting Antimalarial Agents Disrupt Multiple Stages of the Malaria Parasite Life Cycle
title Dual Plasmepsin-Targeting Antimalarial Agents Disrupt Multiple Stages of the Malaria Parasite Life Cycle
title_full Dual Plasmepsin-Targeting Antimalarial Agents Disrupt Multiple Stages of the Malaria Parasite Life Cycle
title_fullStr Dual Plasmepsin-Targeting Antimalarial Agents Disrupt Multiple Stages of the Malaria Parasite Life Cycle
title_full_unstemmed Dual Plasmepsin-Targeting Antimalarial Agents Disrupt Multiple Stages of the Malaria Parasite Life Cycle
title_short Dual Plasmepsin-Targeting Antimalarial Agents Disrupt Multiple Stages of the Malaria Parasite Life Cycle
title_sort dual plasmepsin-targeting antimalarial agents disrupt multiple stages of the malaria parasite life cycle
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7146544/
https://www.ncbi.nlm.nih.gov/pubmed/32109369
http://dx.doi.org/10.1016/j.chom.2020.02.005
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