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Characterisation of a cyclic peptide that binds to the RAS binding domain of phosphoinositide 3-kinase p110α

Characterisation of a cyclic peptide that binds to the RAS binding domain of phosphoinositide 3-kinase p110α
Characterisation of a cyclic peptide that binds to the RAS binding domain of phosphoinositide 3-kinase p110α
P110α is a member of the phosphoinositide 3-kinase (PI3K) enzyme family that functions downstream of RAS. RAS proteins contribute to the activation of p110α by interacting directly with its RAS binding domain (RBD), resulting in the promotion of many cellular functions such as cell growth, proliferation and survival. Previous work from our lab has highlighted the importance of the p110α/RAS interaction in tumour initiation and growth. Here we report the discovery and characterisation of a cyclic peptide inhibitor (cyclo-CRVLIR) that interacts with the p110α-RBD and blocks its interaction with KRAS. cyclo-CRVLIR was discovered by screening a “split-intein cyclisation of peptides and proteins” (SICLOPPS) cyclic peptide library. The primary cyclic peptide hit from the screen initially showed a weak affinity for the p110α-RBD (Kd about 360 µM). However, two rounds of amino acid substitution led to cyclo-CRVLIR, with an improved affinity for p110α-RBD in the low µM (Kd 3 µM). We show that cyclo-CRVLIR binds selectively to the p110α-RBD but not to KRAS or the structurally-related RAF-RBD. Further, using biophysical, biochemical and cellular assays, we show that cyclo-CRVLIR effectively blocks the p110α/KRAS interaction in a dose dependent manner and reduces phospho-AKT levels in several oncogenic KRAS cell lines.
2045-2322
Ismail, Mohamed
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Martin, Stephen R.
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George, Roger
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Houghton, Francesca
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Kelly, Geoff
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Chaleil, Raphaël A.G.
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Anastasiou, Panayiotis
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Wang, Xinyue
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O’Reilly, Nicola
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Federico, Stefania
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Joshi, Dhira
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Nagaraj, Hemavathi
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Cooley, Rachel
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Hui, Ning Sze
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Molina-Arcas, Miriam
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Hancock, David C.
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Tavassoli, Ali
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Downward, Julian
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Ismail, Mohamed
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Martin, Stephen R.
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George, Roger
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Houghton, Francesca
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Kelly, Geoff
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Chaleil, Raphaël A.G.
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Anastasiou, Panayiotis
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Wang, Xinyue
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O’Reilly, Nicola
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Federico, Stefania
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Joshi, Dhira
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Nagaraj, Hemavathi
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Cooley, Rachel
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Hui, Ning Sze
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Molina-Arcas, Miriam
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Hancock, David C.
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Tavassoli, Ali
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Downward, Julian
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Ismail, Mohamed, Martin, Stephen R., George, Roger, Houghton, Francesca, Kelly, Geoff, Chaleil, Raphaël A.G., Anastasiou, Panayiotis, Wang, Xinyue, O’Reilly, Nicola, Federico, Stefania, Joshi, Dhira, Nagaraj, Hemavathi, Cooley, Rachel, Hui, Ning Sze, Molina-Arcas, Miriam, Hancock, David C., Tavassoli, Ali and Downward, Julian (2023) Characterisation of a cyclic peptide that binds to the RAS binding domain of phosphoinositide 3-kinase p110α. Scientific Reports, 13 (1), [1889]. (doi:10.1038/s41598-023-28756-0).

Record type: Article

Abstract

P110α is a member of the phosphoinositide 3-kinase (PI3K) enzyme family that functions downstream of RAS. RAS proteins contribute to the activation of p110α by interacting directly with its RAS binding domain (RBD), resulting in the promotion of many cellular functions such as cell growth, proliferation and survival. Previous work from our lab has highlighted the importance of the p110α/RAS interaction in tumour initiation and growth. Here we report the discovery and characterisation of a cyclic peptide inhibitor (cyclo-CRVLIR) that interacts with the p110α-RBD and blocks its interaction with KRAS. cyclo-CRVLIR was discovered by screening a “split-intein cyclisation of peptides and proteins” (SICLOPPS) cyclic peptide library. The primary cyclic peptide hit from the screen initially showed a weak affinity for the p110α-RBD (Kd about 360 µM). However, two rounds of amino acid substitution led to cyclo-CRVLIR, with an improved affinity for p110α-RBD in the low µM (Kd 3 µM). We show that cyclo-CRVLIR binds selectively to the p110α-RBD but not to KRAS or the structurally-related RAF-RBD. Further, using biophysical, biochemical and cellular assays, we show that cyclo-CRVLIR effectively blocks the p110α/KRAS interaction in a dose dependent manner and reduces phospho-AKT levels in several oncogenic KRAS cell lines.

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Accepted/In Press date: 24 January 2023
Published date: 2 February 2023
Additional Information: Funding Information: This work was supported by funding to J.D. from the Francis Crick Institute— which receives its core funding from Cancer Research UK (FC001070), the UK Medical Research Council (FC001070), and the Wellcome Trust (FC001070)—from the European Research Council Advanced Grant RASImmune, and from a Wellcome Trust Senior Investigator Award 103799/Z/14/Z. Also supported by funding to AT from Cancer Research UK (A20185). Publisher Copyright: © 2023, The Author(s).

Identifiers

Local EPrints ID: 476198
URI: http://eprints.soton.ac.uk/id/eprint/476198
ISSN: 2045-2322
PURE UUID: c42bcfb3-85d7-4419-8060-67c81d66f472
ORCID for Ali Tavassoli: ORCID iD orcid.org/0000-0002-7420-5063

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Date deposited: 13 Apr 2023 17:09
Last modified: 28 Aug 2024 01:41

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Contributors

Author: Mohamed Ismail
Author: Stephen R. Martin
Author: Roger George
Author: Francesca Houghton
Author: Geoff Kelly
Author: Raphaël A.G. Chaleil
Author: Panayiotis Anastasiou
Author: Xinyue Wang
Author: Nicola O’Reilly
Author: Stefania Federico
Author: Dhira Joshi
Author: Hemavathi Nagaraj
Author: Rachel Cooley
Author: Ning Sze Hui
Author: Miriam Molina-Arcas
Author: David C. Hancock
Author: Ali Tavassoli ORCID iD
Author: Julian Downward

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