Author
Listed:
- Katarzyna Z. Haza
(University of Leeds)
- Heather L. Martin
(University of Leeds)
- Ajinkya Rao
(University of Leeds)
- Amy L. Turner
(University of Leeds)
- Sophie E. Saunders
(University of Leeds)
- Britta Petersen
(University of Leeds)
- Christian Tiede
(University of Leeds)
- Kevin Tipping
(University of Leeds)
- Anna A. Tang
(University of Leeds)
- Modupe Ajayi
(University of Leeds)
- Thomas Taylor
(University of Leeds)
- Maia Harvey
(University of Leeds)
- Keri M. Fishwick
(University of Leeds)
- Thomas L. Adams
(University of Leeds)
- Thembaninkosi G. Gaule
(University of Leeds)
- Chi H. Trinh
(University of Leeds)
- Matthew Johnson
(Avacta Life Sciences)
- Alexander L. Breeze
(University of Leeds)
- Thomas A. Edwards
(University of Leeds)
- Michael J. McPherson
(University of Leeds)
- Darren C. Tomlinson
(University of Leeds)
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. 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.
Suggested Citation
Katarzyna Z. Haza & Heather L. Martin & Ajinkya Rao & Amy L. Turner & Sophie E. Saunders & Britta Petersen & Christian Tiede & Kevin Tipping & Anna A. Tang & Modupe Ajayi & Thomas Taylor & Maia Harvey, 2021.
"RAS-inhibiting biologics identify and probe druggable pockets including an SII-α3 allosteric site,"
Nature Communications, Nature, vol. 12(1), pages 1-15, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24316-0
DOI: 10.1038/s41467-021-24316-0
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