Discovery of potent SOS1 inhibitors that block RAS activation via disruption of the RAS–SOS1 interaction

Since the late 1980s, mutations in the RAS genes have been recognized as major oncogenes with a high occurrence rate in human cancers. Such mutations reduce the ability of the small GTPase RAS to hydrolyze GTP, keeping this molecular switch in a constitutively active GTP-bound form that drives, unch...

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Autores principales: Hillig, Roman C., Sautier, Brice, Schroeder, Jens, Moosmayer, Dieter, Hilpmann, André, Stegmann, Christian M., Werbeck, Nicolas D., Briem, Hans, Boemer, Ulf, Weiske, Joerg, Badock, Volker, Mastouri, Julia, Petersen, Kirstin, Siemeister, Gerhard, Kahmann, Jan D., Wegener, Dennis, Böhnke, Niels, Eis, Knut, Graham, Keith, Wortmann, Lars, von Nussbaum, Franz, Bader, Benjamin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2019
Materias:
PNAS Plus
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6377443/
https://www.ncbi.nlm.nih.gov/pubmed/30683722
http://dx.doi.org/10.1073/pnas.1812963116
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author Hillig, Roman C.
Sautier, Brice
Schroeder, Jens
Moosmayer, Dieter
Hilpmann, André
Stegmann, Christian M.
Werbeck, Nicolas D.
Briem, Hans
Boemer, Ulf
Weiske, Joerg
Badock, Volker
Mastouri, Julia
Petersen, Kirstin
Siemeister, Gerhard
Kahmann, Jan D.
Wegener, Dennis
Böhnke, Niels
Eis, Knut
Graham, Keith
Wortmann, Lars
von Nussbaum, Franz
Bader, Benjamin
author_facet Hillig, Roman C.
Sautier, Brice
Schroeder, Jens
Moosmayer, Dieter
Hilpmann, André
Stegmann, Christian M.
Werbeck, Nicolas D.
Briem, Hans
Boemer, Ulf
Weiske, Joerg
Badock, Volker
Mastouri, Julia
Petersen, Kirstin
Siemeister, Gerhard
Kahmann, Jan D.
Wegener, Dennis
Böhnke, Niels
Eis, Knut
Graham, Keith
Wortmann, Lars
von Nussbaum, Franz
Bader, Benjamin
author_sort Hillig, Roman C.
collection PubMed
description Since the late 1980s, mutations in the RAS genes have been recognized as major oncogenes with a high occurrence rate in human cancers. Such mutations reduce the ability of the small GTPase RAS to hydrolyze GTP, keeping this molecular switch in a constitutively active GTP-bound form that drives, unchecked, oncogenic downstream signaling. One strategy to reduce the levels of active RAS is to target guanine nucleotide exchange factors, which allow RAS to cycle from the inactive GDP-bound state to the active GTP-bound form. Here, we describe the identification of potent and cell-active small-molecule inhibitors which efficiently disrupt the interaction between KRAS and its exchange factor SOS1, a mode of action confirmed by a series of biophysical techniques. The binding sites, mode of action, and selectivity were elucidated using crystal structures of KRAS(G12C)–SOS1, SOS1, and SOS2. By preventing formation of the KRAS–SOS1 complex, these inhibitors block reloading of KRAS with GTP, leading to antiproliferative activity. The final compound 23 (BAY-293) selectively inhibits the KRAS–SOS1 interaction with an IC(50) of 21 nM and is a valuable chemical probe for future investigations.
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spelling pubmed-63774432019-02-19 Discovery of potent SOS1 inhibitors that block RAS activation via disruption of the RAS–SOS1 interaction Hillig, Roman C. Sautier, Brice Schroeder, Jens Moosmayer, Dieter Hilpmann, André Stegmann, Christian M. Werbeck, Nicolas D. Briem, Hans Boemer, Ulf Weiske, Joerg Badock, Volker Mastouri, Julia Petersen, Kirstin Siemeister, Gerhard Kahmann, Jan D. Wegener, Dennis Böhnke, Niels Eis, Knut Graham, Keith Wortmann, Lars von Nussbaum, Franz Bader, Benjamin Proc Natl Acad Sci U S A PNAS Plus Since the late 1980s, mutations in the RAS genes have been recognized as major oncogenes with a high occurrence rate in human cancers. Such mutations reduce the ability of the small GTPase RAS to hydrolyze GTP, keeping this molecular switch in a constitutively active GTP-bound form that drives, unchecked, oncogenic downstream signaling. One strategy to reduce the levels of active RAS is to target guanine nucleotide exchange factors, which allow RAS to cycle from the inactive GDP-bound state to the active GTP-bound form. Here, we describe the identification of potent and cell-active small-molecule inhibitors which efficiently disrupt the interaction between KRAS and its exchange factor SOS1, a mode of action confirmed by a series of biophysical techniques. The binding sites, mode of action, and selectivity were elucidated using crystal structures of KRAS(G12C)–SOS1, SOS1, and SOS2. By preventing formation of the KRAS–SOS1 complex, these inhibitors block reloading of KRAS with GTP, leading to antiproliferative activity. The final compound 23 (BAY-293) selectively inhibits the KRAS–SOS1 interaction with an IC(50) of 21 nM and is a valuable chemical probe for future investigations. National Academy of Sciences 2019-02-12 2019-01-25 /pmc/articles/PMC6377443/ /pubmed/30683722 http://dx.doi.org/10.1073/pnas.1812963116 Text en Copyright © 2019 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/ This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle PNAS Plus
Hillig, Roman C.
Sautier, Brice
Schroeder, Jens
Moosmayer, Dieter
Hilpmann, André
Stegmann, Christian M.
Werbeck, Nicolas D.
Briem, Hans
Boemer, Ulf
Weiske, Joerg
Badock, Volker
Mastouri, Julia
Petersen, Kirstin
Siemeister, Gerhard
Kahmann, Jan D.
Wegener, Dennis
Böhnke, Niels
Eis, Knut
Graham, Keith
Wortmann, Lars
von Nussbaum, Franz
Bader, Benjamin
Discovery of potent SOS1 inhibitors that block RAS activation via disruption of the RAS–SOS1 interaction
title Discovery of potent SOS1 inhibitors that block RAS activation via disruption of the RAS–SOS1 interaction
title_full Discovery of potent SOS1 inhibitors that block RAS activation via disruption of the RAS–SOS1 interaction
title_fullStr Discovery of potent SOS1 inhibitors that block RAS activation via disruption of the RAS–SOS1 interaction
title_full_unstemmed Discovery of potent SOS1 inhibitors that block RAS activation via disruption of the RAS–SOS1 interaction
title_short Discovery of potent SOS1 inhibitors that block RAS activation via disruption of the RAS–SOS1 interaction
title_sort discovery of potent sos1 inhibitors that block ras activation via disruption of the ras–sos1 interaction
topic PNAS Plus
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6377443/
https://www.ncbi.nlm.nih.gov/pubmed/30683722
http://dx.doi.org/10.1073/pnas.1812963116
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