Into Deep Water: Optimizing BCL6 Inhibitors by Growing into a Solvated Pocket

[Image: see text] We describe the optimization of modestly active starting points to potent inhibitors of BCL6 by growing into a subpocket, which was occupied by a network of five stably bound water molecules. Identifying potent inhibitors required not only forming new interactions in the subpocket...

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Autores principales: Lloyd, Matthew G., Huckvale, Rosemary, Cheung, Kwai-Ming J., Rodrigues, Matthew J., Collie, Gavin W., Pierrat, Olivier A., Gatti Iou, Mahad, Carter, Michael, Davis, Owen A., McAndrew, P. Craig, Gunnell, Emma, Le Bihan, Yann-Vaï, Talbot, Rachel, Henley, Alan T., Johnson, Louise D., Hayes, Angela, Bright, Michael D., Raynaud, Florence I., Meniconi, Mirco, Burke, Rosemary, van Montfort, Rob L. M., Rossanese, Olivia W., Bellenie, Benjamin R., Hoelder, Swen
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2021
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8667045/
https://www.ncbi.nlm.nih.gov/pubmed/34846884
http://dx.doi.org/10.1021/acs.jmedchem.1c00946
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author Lloyd, Matthew G.
Huckvale, Rosemary
Cheung, Kwai-Ming J.
Rodrigues, Matthew J.
Collie, Gavin W.
Pierrat, Olivier A.
Gatti Iou, Mahad
Carter, Michael
Davis, Owen A.
McAndrew, P. Craig
Gunnell, Emma
Le Bihan, Yann-Vaï
Talbot, Rachel
Henley, Alan T.
Johnson, Louise D.
Hayes, Angela
Bright, Michael D.
Raynaud, Florence I.
Meniconi, Mirco
Burke, Rosemary
van Montfort, Rob L. M.
Rossanese, Olivia W.
Bellenie, Benjamin R.
Hoelder, Swen
author_facet Lloyd, Matthew G.
Huckvale, Rosemary
Cheung, Kwai-Ming J.
Rodrigues, Matthew J.
Collie, Gavin W.
Pierrat, Olivier A.
Gatti Iou, Mahad
Carter, Michael
Davis, Owen A.
McAndrew, P. Craig
Gunnell, Emma
Le Bihan, Yann-Vaï
Talbot, Rachel
Henley, Alan T.
Johnson, Louise D.
Hayes, Angela
Bright, Michael D.
Raynaud, Florence I.
Meniconi, Mirco
Burke, Rosemary
van Montfort, Rob L. M.
Rossanese, Olivia W.
Bellenie, Benjamin R.
Hoelder, Swen
author_sort Lloyd, Matthew G.
collection PubMed
description [Image: see text] We describe the optimization of modestly active starting points to potent inhibitors of BCL6 by growing into a subpocket, which was occupied by a network of five stably bound water molecules. Identifying potent inhibitors required not only forming new interactions in the subpocket but also perturbing the water network in a productive, potency-increasing fashion while controlling the physicochemical properties. We achieved this goal in a sequential manner by systematically probing the pocket and the water network, ultimately achieving a 100-fold improvement of activity. The most potent compounds displaced three of the five initial water molecules and formed hydrogen bonds with the remaining two. Compound 25 showed a promising profile for a lead compound with submicromolar inhibition of BCL6 in cells and satisfactory pharmacokinetic (PK) properties. Our work highlights the importance of finding productive ways to perturb existing water networks when growing into solvent-filled protein pockets.
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spelling pubmed-86670452021-12-14 Into Deep Water: Optimizing BCL6 Inhibitors by Growing into a Solvated Pocket Lloyd, Matthew G. Huckvale, Rosemary Cheung, Kwai-Ming J. Rodrigues, Matthew J. Collie, Gavin W. Pierrat, Olivier A. Gatti Iou, Mahad Carter, Michael Davis, Owen A. McAndrew, P. Craig Gunnell, Emma Le Bihan, Yann-Vaï Talbot, Rachel Henley, Alan T. Johnson, Louise D. Hayes, Angela Bright, Michael D. Raynaud, Florence I. Meniconi, Mirco Burke, Rosemary van Montfort, Rob L. M. Rossanese, Olivia W. Bellenie, Benjamin R. Hoelder, Swen J Med Chem [Image: see text] We describe the optimization of modestly active starting points to potent inhibitors of BCL6 by growing into a subpocket, which was occupied by a network of five stably bound water molecules. Identifying potent inhibitors required not only forming new interactions in the subpocket but also perturbing the water network in a productive, potency-increasing fashion while controlling the physicochemical properties. We achieved this goal in a sequential manner by systematically probing the pocket and the water network, ultimately achieving a 100-fold improvement of activity. The most potent compounds displaced three of the five initial water molecules and formed hydrogen bonds with the remaining two. Compound 25 showed a promising profile for a lead compound with submicromolar inhibition of BCL6 in cells and satisfactory pharmacokinetic (PK) properties. Our work highlights the importance of finding productive ways to perturb existing water networks when growing into solvent-filled protein pockets. American Chemical Society 2021-11-30 2021-12-09 /pmc/articles/PMC8667045/ /pubmed/34846884 http://dx.doi.org/10.1021/acs.jmedchem.1c00946 Text en © 2021 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by/4.0/Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Lloyd, Matthew G.
Huckvale, Rosemary
Cheung, Kwai-Ming J.
Rodrigues, Matthew J.
Collie, Gavin W.
Pierrat, Olivier A.
Gatti Iou, Mahad
Carter, Michael
Davis, Owen A.
McAndrew, P. Craig
Gunnell, Emma
Le Bihan, Yann-Vaï
Talbot, Rachel
Henley, Alan T.
Johnson, Louise D.
Hayes, Angela
Bright, Michael D.
Raynaud, Florence I.
Meniconi, Mirco
Burke, Rosemary
van Montfort, Rob L. M.
Rossanese, Olivia W.
Bellenie, Benjamin R.
Hoelder, Swen
Into Deep Water: Optimizing BCL6 Inhibitors by Growing into a Solvated Pocket
title Into Deep Water: Optimizing BCL6 Inhibitors by Growing into a Solvated Pocket
title_full Into Deep Water: Optimizing BCL6 Inhibitors by Growing into a Solvated Pocket
title_fullStr Into Deep Water: Optimizing BCL6 Inhibitors by Growing into a Solvated Pocket
title_full_unstemmed Into Deep Water: Optimizing BCL6 Inhibitors by Growing into a Solvated Pocket
title_short Into Deep Water: Optimizing BCL6 Inhibitors by Growing into a Solvated Pocket
title_sort into deep water: optimizing bcl6 inhibitors by growing into a solvated pocket
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8667045/
https://www.ncbi.nlm.nih.gov/pubmed/34846884
http://dx.doi.org/10.1021/acs.jmedchem.1c00946
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