Please use this identifier to cite or link to this item: https://doi.org/10.1039/c9sc06383h
Title: Macrocyclization of an all-dlinear α-helical peptide imparts cellular permeability
Authors: Kannan, S.
Aronica, P.G.A.
Ng, S.
Gek Lian, D.T.
Frosi, Y.
Chee, S.
Shimin, J.
Yuen, T.Y.
Sadruddin, A.
Kaan, H.Y.K.
Chandramohan, A.
Wong, J.H.
Tan, Y.S.
Chang, Z.W.
Ferrer-Gago, F.J.
Arumugam, P.
Han, Y.
Chen, S.
Rénia, L.
Brown, C.J.
Johannes, C.W.
Henry, B.
Lane, D.P.
Sawyer, T.K.
Verma, C.S. 
Partridge, A.W.
Issue Date: 11-May-2020
Publisher: Royal Society of Chemistry
Citation: Kannan, S., Aronica, P.G.A., Ng, S., Gek Lian, D.T., Frosi, Y., Chee, S., Shimin, J., Yuen, T.Y., Sadruddin, A., Kaan, H.Y.K., Chandramohan, A., Wong, J.H., Tan, Y.S., Chang, Z.W., Ferrer-Gago, F.J., Arumugam, P., Han, Y., Chen, S., Rénia, L., Brown, C.J., Johannes, C.W., Henry, B., Lane, D.P., Sawyer, T.K., Verma, C.S., Partridge, A.W. (2020-05-11). Macrocyclization of an all-dlinear α-helical peptide imparts cellular permeability. Chemical Science 11 (21) : 5577-5591. ScholarBank@NUS Repository. https://doi.org/10.1039/c9sc06383h
Rights: Attribution-NonCommercial 4.0 International
Abstract: Peptide-based molecules hold great potential as targeted inhibitors of intracellular protein-protein interactions (PPIs). Indeed, the vast diversity of chemical space conferred through their primary, secondary and tertiary structures allows these molecules to be applied to targets that are typically deemed intractableviasmall molecules. However, the development of peptide therapeutics has been hindered by their limited conformational stability, proteolytic sensitivity and cell permeability. Several contemporary peptide design strategies are aimed at addressing these issues. Strategic macrocyclization through optimally placed chemical braces such as olefinic hydrocarbon crosslinks, commonly referred to as staples, may improve peptide properties by (i) restricting conformational freedom to improve target affinities, (ii) improving proteolytic resistance, and (iii) enhancing cell permeability. As a second strategy, molecules constructed entirely fromd-amino acids are hyper-resistant to proteolytic cleavage, but generally lack conformational stability and membrane permeability. Since neither approach is a complete solution, we have combined these strategies to identify the first examples of all-d α-helical stapled and stitched peptides. As a template, we used a recently reported alld-linear peptide that is a potent inhibitor of the p53-Mdm2 interaction, but is devoid of cellular activity. To design both stapled and stitched all-d-peptide analogues, we used computational modelling to predict optimal staple placement. The resultant novel macrocyclic alld-peptide was determined to exhibit increased α-helicity, improved target binding, complete proteolytic stability and, most notably, cellular activity. © The Royal Society of Chemistry 2020.
Source Title: Chemical Science
URI: https://scholarbank.nus.edu.sg/handle/10635/198787
ISSN: 20416520
DOI: 10.1039/c9sc06383h
Rights: Attribution-NonCommercial 4.0 International
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