Imidazolopiperazines: Hit to Lead Optimization of New Antimalarial Agents

[Image: see text] Starting from a hit series from a GNF compound library collection and based on a cell-based proliferation assay of Plasmodium falciparum, a novel imidazolopiperazine scaffold was optimized. SAR for this series of compounds is discussed, focusing on optimization of cellular potency...

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Autores principales: Wu, Tao, Nagle, Advait, Kuhen, Kelli, Gagaring, Kerstin, Borboa, Rachel, Francek, Caroline, Chen, Zhong, Plouffe, David, Goh, Anne, Lakshminarayana, Suresh B., Wu, Jeanette, Ang, Hui Qing, Zeng, Peiting, Kang, Min Low, Tan, William, Tan, Maria, Ye, Nicole, Lin, Xuena, Caldwell, Christopher, Ek, Jared, Skolnik, Suzanne, Liu, Fenghua, Wang, Jianling, Chang, Jonathan, Li, Chun, Hollenbeck, Thomas, Tuntland, Tove, Isbell, John, Fischli, Christoph, Brun, Reto, Rottmann, Matthias, Dartois, Veronique, Keller, Thomas, Diagana, Thierry, Winzeler, Elizabeth, Glynne, Richard, Tully, David C., Chatterjee, Arnab K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2011
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6950218/
https://www.ncbi.nlm.nih.gov/pubmed/21644570
http://dx.doi.org/10.1021/jm2003359
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author Wu, Tao
Nagle, Advait
Kuhen, Kelli
Gagaring, Kerstin
Borboa, Rachel
Francek, Caroline
Chen, Zhong
Plouffe, David
Goh, Anne
Lakshminarayana, Suresh B.
Wu, Jeanette
Ang, Hui Qing
Zeng, Peiting
Kang, Min Low
Tan, William
Tan, Maria
Ye, Nicole
Lin, Xuena
Caldwell, Christopher
Ek, Jared
Skolnik, Suzanne
Liu, Fenghua
Wang, Jianling
Chang, Jonathan
Li, Chun
Hollenbeck, Thomas
Tuntland, Tove
Isbell, John
Fischli, Christoph
Brun, Reto
Rottmann, Matthias
Dartois, Veronique
Keller, Thomas
Diagana, Thierry
Winzeler, Elizabeth
Glynne, Richard
Tully, David C.
Chatterjee, Arnab K.
author_facet Wu, Tao
Nagle, Advait
Kuhen, Kelli
Gagaring, Kerstin
Borboa, Rachel
Francek, Caroline
Chen, Zhong
Plouffe, David
Goh, Anne
Lakshminarayana, Suresh B.
Wu, Jeanette
Ang, Hui Qing
Zeng, Peiting
Kang, Min Low
Tan, William
Tan, Maria
Ye, Nicole
Lin, Xuena
Caldwell, Christopher
Ek, Jared
Skolnik, Suzanne
Liu, Fenghua
Wang, Jianling
Chang, Jonathan
Li, Chun
Hollenbeck, Thomas
Tuntland, Tove
Isbell, John
Fischli, Christoph
Brun, Reto
Rottmann, Matthias
Dartois, Veronique
Keller, Thomas
Diagana, Thierry
Winzeler, Elizabeth
Glynne, Richard
Tully, David C.
Chatterjee, Arnab K.
author_sort Wu, Tao
collection PubMed
description [Image: see text] Starting from a hit series from a GNF compound library collection and based on a cell-based proliferation assay of Plasmodium falciparum, a novel imidazolopiperazine scaffold was optimized. SAR for this series of compounds is discussed, focusing on optimization of cellular potency against wild-type and drug resistant parasites and improvement of physiochemical and pharmacokinetic properties. The lead compounds in this series showed good potencies in vitro and decent oral exposure levels in vivo. In a Plasmodium berghei mouse infection model, one lead compound lowered the parasitemia level by 99.4% after administration of 100 mg/kg single oral dose and prolonged mice survival by an average of 17.0 days. The lead compounds were also well-tolerated in the preliminary in vitro toxicity studies and represents an interesting lead for drug development.
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spelling pubmed-69502182020-01-10 Imidazolopiperazines: Hit to Lead Optimization of New Antimalarial Agents Wu, Tao Nagle, Advait Kuhen, Kelli Gagaring, Kerstin Borboa, Rachel Francek, Caroline Chen, Zhong Plouffe, David Goh, Anne Lakshminarayana, Suresh B. Wu, Jeanette Ang, Hui Qing Zeng, Peiting Kang, Min Low Tan, William Tan, Maria Ye, Nicole Lin, Xuena Caldwell, Christopher Ek, Jared Skolnik, Suzanne Liu, Fenghua Wang, Jianling Chang, Jonathan Li, Chun Hollenbeck, Thomas Tuntland, Tove Isbell, John Fischli, Christoph Brun, Reto Rottmann, Matthias Dartois, Veronique Keller, Thomas Diagana, Thierry Winzeler, Elizabeth Glynne, Richard Tully, David C. Chatterjee, Arnab K. J Med Chem [Image: see text] Starting from a hit series from a GNF compound library collection and based on a cell-based proliferation assay of Plasmodium falciparum, a novel imidazolopiperazine scaffold was optimized. SAR for this series of compounds is discussed, focusing on optimization of cellular potency against wild-type and drug resistant parasites and improvement of physiochemical and pharmacokinetic properties. The lead compounds in this series showed good potencies in vitro and decent oral exposure levels in vivo. In a Plasmodium berghei mouse infection model, one lead compound lowered the parasitemia level by 99.4% after administration of 100 mg/kg single oral dose and prolonged mice survival by an average of 17.0 days. The lead compounds were also well-tolerated in the preliminary in vitro toxicity studies and represents an interesting lead for drug development. American Chemical Society 2011-06-06 2011-07-28 /pmc/articles/PMC6950218/ /pubmed/21644570 http://dx.doi.org/10.1021/jm2003359 Text en Copyright © 2011 American Chemical Society
spellingShingle Wu, Tao
Nagle, Advait
Kuhen, Kelli
Gagaring, Kerstin
Borboa, Rachel
Francek, Caroline
Chen, Zhong
Plouffe, David
Goh, Anne
Lakshminarayana, Suresh B.
Wu, Jeanette
Ang, Hui Qing
Zeng, Peiting
Kang, Min Low
Tan, William
Tan, Maria
Ye, Nicole
Lin, Xuena
Caldwell, Christopher
Ek, Jared
Skolnik, Suzanne
Liu, Fenghua
Wang, Jianling
Chang, Jonathan
Li, Chun
Hollenbeck, Thomas
Tuntland, Tove
Isbell, John
Fischli, Christoph
Brun, Reto
Rottmann, Matthias
Dartois, Veronique
Keller, Thomas
Diagana, Thierry
Winzeler, Elizabeth
Glynne, Richard
Tully, David C.
Chatterjee, Arnab K.
Imidazolopiperazines: Hit to Lead Optimization of New Antimalarial Agents
title Imidazolopiperazines: Hit to Lead Optimization of New Antimalarial Agents
title_full Imidazolopiperazines: Hit to Lead Optimization of New Antimalarial Agents
title_fullStr Imidazolopiperazines: Hit to Lead Optimization of New Antimalarial Agents
title_full_unstemmed Imidazolopiperazines: Hit to Lead Optimization of New Antimalarial Agents
title_short Imidazolopiperazines: Hit to Lead Optimization of New Antimalarial Agents
title_sort imidazolopiperazines: hit to lead optimization of new antimalarial agents
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6950218/
https://www.ncbi.nlm.nih.gov/pubmed/21644570
http://dx.doi.org/10.1021/jm2003359
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