Discovery of PF-06928215 as a high affinity inhibitor of cGAS enabled by a novel fluorescence polarization assay

Cyclic GMP-AMP synthase (cGAS) initiates the innate immune system in response to cytosolic dsDNA. After binding and activation from dsDNA, cGAS uses ATP and GTP to synthesize 2′, 3′ -cGAMP (cGAMP), a cyclic dinucleotide second messenger with mixed 2′-5′ and 3′-5′ phosphodiester bonds. Inappropriate...

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Autores principales: Hall, Justin, Brault, Amy, Vincent, Fabien, Weng, Shawn, Wang, Hong, Dumlao, Darren, Aulabaugh, Ann, Aivazian, Dikran, Castro, Dana, Chen, Ming, Culp, Jeffrey, Dower, Ken, Gardner, Joseph, Hawrylik, Steven, Golenbock, Douglas, Hepworth, David, Horn, Mark, Jones, Lyn, Jones, Peter, Latz, Eicke, Li, Jing, Lin, Lih-Ling, Lin, Wen, Lin, David, Lovering, Frank, Niljanskul, Nootaree, Nistler, Ryan, Pierce, Betsy, Plotnikova, Olga, Schmitt, Daniel, Shanker, Suman, Smith, James, Snyder, William, Subashi, Timothy, Trujillo, John, Tyminski, Edyta, Wang, Guoxing, Wong, Jimson, Lefker, Bruce, Dakin, Leslie, Leach, Karen
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5608272/
https://www.ncbi.nlm.nih.gov/pubmed/28934246
http://dx.doi.org/10.1371/journal.pone.0184843
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author Hall, Justin
Brault, Amy
Vincent, Fabien
Weng, Shawn
Wang, Hong
Dumlao, Darren
Aulabaugh, Ann
Aivazian, Dikran
Castro, Dana
Chen, Ming
Culp, Jeffrey
Dower, Ken
Gardner, Joseph
Hawrylik, Steven
Golenbock, Douglas
Hepworth, David
Horn, Mark
Jones, Lyn
Jones, Peter
Latz, Eicke
Li, Jing
Lin, Lih-Ling
Lin, Wen
Lin, David
Lovering, Frank
Niljanskul, Nootaree
Nistler, Ryan
Pierce, Betsy
Plotnikova, Olga
Schmitt, Daniel
Shanker, Suman
Smith, James
Snyder, William
Subashi, Timothy
Trujillo, John
Tyminski, Edyta
Wang, Guoxing
Wong, Jimson
Lefker, Bruce
Dakin, Leslie
Leach, Karen
author_facet Hall, Justin
Brault, Amy
Vincent, Fabien
Weng, Shawn
Wang, Hong
Dumlao, Darren
Aulabaugh, Ann
Aivazian, Dikran
Castro, Dana
Chen, Ming
Culp, Jeffrey
Dower, Ken
Gardner, Joseph
Hawrylik, Steven
Golenbock, Douglas
Hepworth, David
Horn, Mark
Jones, Lyn
Jones, Peter
Latz, Eicke
Li, Jing
Lin, Lih-Ling
Lin, Wen
Lin, David
Lovering, Frank
Niljanskul, Nootaree
Nistler, Ryan
Pierce, Betsy
Plotnikova, Olga
Schmitt, Daniel
Shanker, Suman
Smith, James
Snyder, William
Subashi, Timothy
Trujillo, John
Tyminski, Edyta
Wang, Guoxing
Wong, Jimson
Lefker, Bruce
Dakin, Leslie
Leach, Karen
author_sort Hall, Justin
collection PubMed
description Cyclic GMP-AMP synthase (cGAS) initiates the innate immune system in response to cytosolic dsDNA. After binding and activation from dsDNA, cGAS uses ATP and GTP to synthesize 2′, 3′ -cGAMP (cGAMP), a cyclic dinucleotide second messenger with mixed 2′-5′ and 3′-5′ phosphodiester bonds. Inappropriate stimulation of cGAS has been implicated in autoimmune disease such as systemic lupus erythematosus, thus inhibition of cGAS may be of therapeutic benefit in some diseases; however, the size and polarity of the cGAS active site makes it a challenging target for the development of conventional substrate-competitive inhibitors. We report here the development of a high affinity (K(D) = 200 nM) inhibitor from a low affinity fragment hit with supporting biochemical and structural data showing these molecules bind to the cGAS active site. We also report a new high throughput cGAS fluorescence polarization (FP)-based assay to enable the rapid identification and optimization of cGAS inhibitors. This FP assay uses Cy5-labelled cGAMP in combination with a novel high affinity monoclonal antibody that specifically recognizes cGAMP with no cross reactivity to cAMP, cGMP, ATP, or GTP. Given its role in the innate immune response, cGAS is a promising therapeutic target for autoinflammatory disease. Our results demonstrate its druggability, provide a high affinity tool compound, and establish a high throughput assay for the identification of next generation cGAS inhibitors.
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spelling pubmed-56082722017-10-09 Discovery of PF-06928215 as a high affinity inhibitor of cGAS enabled by a novel fluorescence polarization assay Hall, Justin Brault, Amy Vincent, Fabien Weng, Shawn Wang, Hong Dumlao, Darren Aulabaugh, Ann Aivazian, Dikran Castro, Dana Chen, Ming Culp, Jeffrey Dower, Ken Gardner, Joseph Hawrylik, Steven Golenbock, Douglas Hepworth, David Horn, Mark Jones, Lyn Jones, Peter Latz, Eicke Li, Jing Lin, Lih-Ling Lin, Wen Lin, David Lovering, Frank Niljanskul, Nootaree Nistler, Ryan Pierce, Betsy Plotnikova, Olga Schmitt, Daniel Shanker, Suman Smith, James Snyder, William Subashi, Timothy Trujillo, John Tyminski, Edyta Wang, Guoxing Wong, Jimson Lefker, Bruce Dakin, Leslie Leach, Karen PLoS One Research Article Cyclic GMP-AMP synthase (cGAS) initiates the innate immune system in response to cytosolic dsDNA. After binding and activation from dsDNA, cGAS uses ATP and GTP to synthesize 2′, 3′ -cGAMP (cGAMP), a cyclic dinucleotide second messenger with mixed 2′-5′ and 3′-5′ phosphodiester bonds. Inappropriate stimulation of cGAS has been implicated in autoimmune disease such as systemic lupus erythematosus, thus inhibition of cGAS may be of therapeutic benefit in some diseases; however, the size and polarity of the cGAS active site makes it a challenging target for the development of conventional substrate-competitive inhibitors. We report here the development of a high affinity (K(D) = 200 nM) inhibitor from a low affinity fragment hit with supporting biochemical and structural data showing these molecules bind to the cGAS active site. We also report a new high throughput cGAS fluorescence polarization (FP)-based assay to enable the rapid identification and optimization of cGAS inhibitors. This FP assay uses Cy5-labelled cGAMP in combination with a novel high affinity monoclonal antibody that specifically recognizes cGAMP with no cross reactivity to cAMP, cGMP, ATP, or GTP. Given its role in the innate immune response, cGAS is a promising therapeutic target for autoinflammatory disease. Our results demonstrate its druggability, provide a high affinity tool compound, and establish a high throughput assay for the identification of next generation cGAS inhibitors. Public Library of Science 2017-09-21 /pmc/articles/PMC5608272/ /pubmed/28934246 http://dx.doi.org/10.1371/journal.pone.0184843 Text en © 2017 Hall et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Hall, Justin
Brault, Amy
Vincent, Fabien
Weng, Shawn
Wang, Hong
Dumlao, Darren
Aulabaugh, Ann
Aivazian, Dikran
Castro, Dana
Chen, Ming
Culp, Jeffrey
Dower, Ken
Gardner, Joseph
Hawrylik, Steven
Golenbock, Douglas
Hepworth, David
Horn, Mark
Jones, Lyn
Jones, Peter
Latz, Eicke
Li, Jing
Lin, Lih-Ling
Lin, Wen
Lin, David
Lovering, Frank
Niljanskul, Nootaree
Nistler, Ryan
Pierce, Betsy
Plotnikova, Olga
Schmitt, Daniel
Shanker, Suman
Smith, James
Snyder, William
Subashi, Timothy
Trujillo, John
Tyminski, Edyta
Wang, Guoxing
Wong, Jimson
Lefker, Bruce
Dakin, Leslie
Leach, Karen
Discovery of PF-06928215 as a high affinity inhibitor of cGAS enabled by a novel fluorescence polarization assay
title Discovery of PF-06928215 as a high affinity inhibitor of cGAS enabled by a novel fluorescence polarization assay
title_full Discovery of PF-06928215 as a high affinity inhibitor of cGAS enabled by a novel fluorescence polarization assay
title_fullStr Discovery of PF-06928215 as a high affinity inhibitor of cGAS enabled by a novel fluorescence polarization assay
title_full_unstemmed Discovery of PF-06928215 as a high affinity inhibitor of cGAS enabled by a novel fluorescence polarization assay
title_short Discovery of PF-06928215 as a high affinity inhibitor of cGAS enabled by a novel fluorescence polarization assay
title_sort discovery of pf-06928215 as a high affinity inhibitor of cgas enabled by a novel fluorescence polarization assay
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5608272/
https://www.ncbi.nlm.nih.gov/pubmed/28934246
http://dx.doi.org/10.1371/journal.pone.0184843
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