AI Article Synopsis
- Peptides that target specific protein interactions present a promising therapy option, bridging the gap between small molecules and therapeutic proteins, but they face challenges like poor stability and low permeability.
- Cyclization of peptides, including techniques like "stapling," helps to create more stable and permeable cyclic peptides by enhancing their structure and resistance to metabolism.
- Through a detailed analysis of various cyclization methods, the study identifies effective cyclic peptides that target Mint2, with all-hydrocarbon stapling significantly boosting their stability and cell permeability.
Article Abstract
Peptides targeting disease-relevant protein-protein interactions are an attractive class of therapeutics covering the otherwise undruggable space between small molecules and therapeutic proteins. However, peptides generally suffer from poor metabolic stability and low membrane permeability. Hence, peptide cyclization has become a valuable approach to develop linear peptide motifs into metabolically stable and potentially cell-permeable cyclic leads. Furthermore, cyclization of side chains, also known as "stapling", can stabilize particular secondary peptide structures. Here, we demonstrate that a comprehensive examination of cyclization strategies in terms of position, chemistry, and length is a prerequisite for the selection of optimal cyclic peptide scaffolds. Our systematic approach identifies cyclic APP dodecamer peptides targeting the phosphotyrosine binding domain of Mint2 with substantially improved affinity. We show that especially all-hydrocarbon stapling provides improved metabolic stability, a significantly stabilized secondary structure and membrane permeability.
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| http://dx.doi.org/10.1021/acs.jmedchem.2c02017 | DOI Listing |
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