α4-α5 Helices on Surface of KRAS Can Accommodate Small Compounds That Increase KRAS Signaling While Inducing CRC Cell Death

KRAS is the most frequently mutated oncogene associated with the genesis and progress of pancreatic, lung and colorectal (CRC) tumors. KRAS has always been considered as a therapeutic target in cancer but until now only two compounds that inhibit one specific KRAS mutation have been approved for cli...

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Autores principales: Abuasaker, Baraa, Garrido, Eduardo, Vilaplana, Marta, Gómez-Zepeda, Jesús Daniel, Brun, Sonia, Garcia-Cajide, Marta, Mauvezin, Caroline, Jaumot, Montserrat, Pujol, Maria Dolors, Rubio-Martínez, Jaime, Agell, Neus
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9821572/
https://www.ncbi.nlm.nih.gov/pubmed/36614192
http://dx.doi.org/10.3390/ijms24010748
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author Abuasaker, Baraa
Garrido, Eduardo
Vilaplana, Marta
Gómez-Zepeda, Jesús Daniel
Brun, Sonia
Garcia-Cajide, Marta
Mauvezin, Caroline
Jaumot, Montserrat
Pujol, Maria Dolors
Rubio-Martínez, Jaime
Agell, Neus
author_facet Abuasaker, Baraa
Garrido, Eduardo
Vilaplana, Marta
Gómez-Zepeda, Jesús Daniel
Brun, Sonia
Garcia-Cajide, Marta
Mauvezin, Caroline
Jaumot, Montserrat
Pujol, Maria Dolors
Rubio-Martínez, Jaime
Agell, Neus
author_sort Abuasaker, Baraa
collection PubMed
description KRAS is the most frequently mutated oncogene associated with the genesis and progress of pancreatic, lung and colorectal (CRC) tumors. KRAS has always been considered as a therapeutic target in cancer but until now only two compounds that inhibit one specific KRAS mutation have been approved for clinical use. In this work, by molecular dynamics and a docking process, we describe a new compound (P14B) that stably binds to a druggable pocket near the α4-α5 helices of the allosteric domain of KRAS. This region had previously been identified as the binding site for calmodulin (CaM). Using surface plasmon resonance and pulldown analyses, we prove that P14B binds directly to oncogenic KRAS thus competing with CaM. Interestingly, P14B favors oncogenic KRAS interaction with BRAF and phosphorylated C-RAF, and increases downstream Ras signaling in CRC cells expressing oncogenic KRAS. The viability of these cells, but not that of the normal cells, is impaired by P14B treatment. These data support the significance of the α4-α5 helices region of KRAS in the regulation of oncogenic KRAS signaling, and demonstrate that drugs interacting with this site may destine CRC cells to death by increasing oncogenic KRAS downstream signaling.
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spelling pubmed-98215722023-01-07 α4-α5 Helices on Surface of KRAS Can Accommodate Small Compounds That Increase KRAS Signaling While Inducing CRC Cell Death Abuasaker, Baraa Garrido, Eduardo Vilaplana, Marta Gómez-Zepeda, Jesús Daniel Brun, Sonia Garcia-Cajide, Marta Mauvezin, Caroline Jaumot, Montserrat Pujol, Maria Dolors Rubio-Martínez, Jaime Agell, Neus Int J Mol Sci Article KRAS is the most frequently mutated oncogene associated with the genesis and progress of pancreatic, lung and colorectal (CRC) tumors. KRAS has always been considered as a therapeutic target in cancer but until now only two compounds that inhibit one specific KRAS mutation have been approved for clinical use. In this work, by molecular dynamics and a docking process, we describe a new compound (P14B) that stably binds to a druggable pocket near the α4-α5 helices of the allosteric domain of KRAS. This region had previously been identified as the binding site for calmodulin (CaM). Using surface plasmon resonance and pulldown analyses, we prove that P14B binds directly to oncogenic KRAS thus competing with CaM. Interestingly, P14B favors oncogenic KRAS interaction with BRAF and phosphorylated C-RAF, and increases downstream Ras signaling in CRC cells expressing oncogenic KRAS. The viability of these cells, but not that of the normal cells, is impaired by P14B treatment. These data support the significance of the α4-α5 helices region of KRAS in the regulation of oncogenic KRAS signaling, and demonstrate that drugs interacting with this site may destine CRC cells to death by increasing oncogenic KRAS downstream signaling. MDPI 2023-01-01 /pmc/articles/PMC9821572/ /pubmed/36614192 http://dx.doi.org/10.3390/ijms24010748 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Abuasaker, Baraa
Garrido, Eduardo
Vilaplana, Marta
Gómez-Zepeda, Jesús Daniel
Brun, Sonia
Garcia-Cajide, Marta
Mauvezin, Caroline
Jaumot, Montserrat
Pujol, Maria Dolors
Rubio-Martínez, Jaime
Agell, Neus
α4-α5 Helices on Surface of KRAS Can Accommodate Small Compounds That Increase KRAS Signaling While Inducing CRC Cell Death
title α4-α5 Helices on Surface of KRAS Can Accommodate Small Compounds That Increase KRAS Signaling While Inducing CRC Cell Death
title_full α4-α5 Helices on Surface of KRAS Can Accommodate Small Compounds That Increase KRAS Signaling While Inducing CRC Cell Death
title_fullStr α4-α5 Helices on Surface of KRAS Can Accommodate Small Compounds That Increase KRAS Signaling While Inducing CRC Cell Death
title_full_unstemmed α4-α5 Helices on Surface of KRAS Can Accommodate Small Compounds That Increase KRAS Signaling While Inducing CRC Cell Death
title_short α4-α5 Helices on Surface of KRAS Can Accommodate Small Compounds That Increase KRAS Signaling While Inducing CRC Cell Death
title_sort α4-α5 helices on surface of kras can accommodate small compounds that increase kras signaling while inducing crc cell death
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9821572/
https://www.ncbi.nlm.nih.gov/pubmed/36614192
http://dx.doi.org/10.3390/ijms24010748
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