Ajinkya Rao scite author profile

RAS mutations are the most common oncogenic drivers across human cancers, but there remains a paucity of clinically-validated pharmacological inhibitors of RAS, as druggable pockets have proven difficult to identify. Here, we identify two RAS-binding Affimer proteins, K3 and K6, that inhibit nucleotide exchange and downstream signaling pathways with distinct isoform and mutant profiles. Affimer K6 binds in the SI/SII pocket, whilst Affimer K3 is a non-covalent inhibitor of the SII region that reveals a conformer of wild-type RAS with a large, druggable SII/α3 pocket. Competitive NanoBRET between the RAS-binding Affimers and known RAS binding small-molecules demonstrates the potential to use Affimers as tools to identify pharmacophores. This work highlights the potential of using biologics with small interface surfaces to select unseen, druggable conformations in conjunction with pharmacophore identification for hard-to-drug proteins.

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Recent Advances in Molecular Modeling and Medicinal Chemistry Aspects of Phospho-Glycoprotein&#

Srinivas¹,

Murthy²,

Rao³

et al. 2006

CDM

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Phospho-glycoprotein (P-gp) is an efflux transporter expressed in many organs (ex: kidney, lung, liver and spleen) and in hormone producing or responsive tissues (ex: adrenal cortex, testis and placenta). It is involved in many important physiological functions. Among them the major one is extrusion of xenobiotics in order to detoxify the cells. This property of P-gp is associated with multidrug resistance (MDR) for many pathological conditions. While the experimental determination of three-dimensional structure is not yet successful, the transmembrane (TM) 5, 6, 11 and 12 are sensitive to mutations and contain substrate binding sites. Designing of potential and selective inhibitors of P-gp is still hampered by a lack of information upon the three dimensional structure of P-gp. The design of P-gp inhibitors was traditionally driven by quantitative structure activity relationship studies, which is complicated by factors such as different types of assays, multiple drug binding sites and diverse chemical structures. Clearly a conclusive and predictive SAR does not seem to be practical, despite progress in the last few years towards more specific SAR suggesting well defined structural features responsible for activity. Advances made recently in solving the crystal structure of prokaryotic ATP binding cassette proteins (ABC) transporters, Ec-MsbA, Vc-MsbA and BtuCD yielded suitable templates for construction of homology models of P-gp. Few molecular dynamics (MD) simulations aimed at elucidating the functional dynamics of ABC transporters have provided useful insights to their mechanism and structure. The present review aims at the general overview of importance, expression, structure, organization and drug binding sites of P-gp. This review also highlights recent developments in the homology modeling, molecular dynamics simulations of P-gp and progress in QSAR, pharmacophore modeling of P-gp modulators.

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Non-immunoglobulin scaffold proteins: Precision tools for studying protein-protein interactions in cancer

et al. 2018

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Cancer is frequently characterised by dysregulation of the cellular signalling processes that govern proliferation, survival and attachment. Understanding such dysregulation continues to present a challenge given the importance of protein-protein interactions in intracellular processes. Exploring this protein-protein interactome requires novel tools capable of discriminating between highly homologous proteins, individual domains and post-translational modifications. This review examines the potential of scaffold-based binding proteins to fulfil these requirements. It also explores protein-protein interactions in the context of intracellular signalling pathways and cancer, and demonstrates the uses of scaffold proteins as functional moderators, biosensors and imaging reagents. This review also highlights the timeliness and potential to develop international consortia to develop and validate highly specific "proteome" scaffold-based binding protein reagents with the ultimate aim of developing screening tools for studying the interactome.

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RAS-inhibiting biologics identify and probe druggable pockets including an SII-α3 allosteric site

Haza

Martin

Rao

et al. 2020

Preprint

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Telephone +44 (0)113 34 37099 † These authors contributed equally.ABSTRACT RAS mutations are the most common oncogenic drivers across human cancers, but there remains a paucity of clinically-validated pharmacological inhibitors of RAS, as druggable pockets have proven difficult to identify. We have identified two RASbinding Affimer proteins, K3 and K6, that inhibit nucleotide exchange and downstream signalling pathways with distinct isoform and mutant profiles. Affimer K6 is the first biologic to bind in the SI/SII pocket, whilst Affimer K3 is the first noncovalent inhibitor of the SII region, revealing a novel RAS conformer with a large, druggable SII/α3 pocket. This work demonstrates the potential of using biologics with small interface surfaces to select novel druggable conformations in conjunction with pharmacophore identification for hard-to-drug proteins.

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Abstract B33: Inhibition of Ras using Affimers

Rao¹,

Haza²,

Trinh³

et al. 2020

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Ras proteins function as binary switches in order to mediate a wide range of signaling events and are one of the most frequently mutated oncoproteins in human cancers. However, progress in targeting Ras has been slow owing to the lack of obvious druggable sites. Recently, numerous binding proteins have been developed that probe Ras function, which have identified some allosteric sites and have opened new avenues for drug discovery. Affimers are now an established class of binding proteins. They consist of two variable regions that confer molecular recognition with target proteins and molecules. We have isolated Affimers against KRas using phage display. From the phage screen, seven unique binders were isolated and tested in SOScat catalyzed nucleotide exchange reaction to identify inhibitors of nucleotide exchange. Three Affimers, K3, K6 and K37, were the most potent inhibitors of this reaction, with K3 also inhibiting Ras interaction with the Ras binding domain of Raf. To understand the molecular mechanisms of inhibiting both nucleotide exchange and interaction with Raf, the X-ray crystal structure of Affimer K3-KRas complex was solved to 2.1 Å resolution. The Affimer interacts with Switch II region of KRas, causing the α-2 helix region to shift outwards to reveal a hydrophobic pocket that has not been targeted by any other non-antibody binding proteins. It is speculated that the shift in the switch II domain will cause a steric clash with the Ras binding domain of Raf. These results show that Affimers can select for protein conformations not previously identified by other reagents and may aid in further developing Ras binding compounds. Citation Format: Ajinkya Rao, Kataryzna Haza, Chi Trinh, Thomas Edwards, Darren Tomlinson. Inhibition of Ras using Affimers [abstract]. In: Proceedings of the AACR Special Conference on Targeting RAS-Driven Cancers; 2018 Dec 9-12; San Diego, CA. Philadelphia (PA): AACR; Mol Cancer Res 2020;18(5_Suppl):Abstract nr B33.

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Ajinkya Rao

RAS-inhibiting biologics identify and probe druggable pockets including an SII-α3 allosteric site

Recent Advances in Molecular Modeling and Medicinal Chemistry Aspects of Phospho-Glycoprotein&#

Non-immunoglobulin scaffold proteins: Precision tools for studying protein-protein interactions in cancer

RAS-inhibiting biologics identify and probe druggable pockets including an SII-α3 allosteric site

Abstract B33: Inhibition of Ras using Affimers

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