AI Article Synopsis
- Dynamic chirality affects various natural processes, including protein folding and catalysis, with azapeptides showing unique hybridization properties.
- Cyclic azapeptides have a strong binding affinity to the CD36 receptor and can reduce macrophage-driven inflammation by modulating specific pathways.
- Synthesis techniques and NMR spectroscopy reveal that the conformational rigidity of these cyclic azapeptides is linked to their binding affinity, highlighting the importance of dynamic chirality in developing inflammation modulators.
Article Abstract
Dynamic chirality influences numerous processes in nature from protein folding to catalysis. Azapeptides are peptidomimetics possessing semicarbazide residues that can interconvert between sp and sp hybridization, resulting in stereodynamic interconversions of pseudo- and --configurations by means of a planar intermediate. Cyclic azapeptides have shown unprecedented binding affinity to the cluster of differentiation 36 receptor (CD36) and ability to mitigate macrophage-driven inflammation by modulation of the toll-like receptor 2/6 pathway. A novel approach to synthesize cyclic peptides via A-macrocyclization has been used to make - and -configuration controls to study the relevance of semicarbazide hybridization for modulator activity. Nuclear magnetic resonance spectroscopy analysis of potent cyclic azapeptide CD36 modulators (e.g., and ) and related cyclic peptides demonstrated that binding affinity correlated with conformational rigidity, and a hybridization preference for sp > - > -sp semicarbazide nitrogen configuration was evaluated. Evidence of the active conformation and the relevance for dynamic chirality serve as insights for creating cyclic (aza)peptide CD36 modulators to curb inflammation.
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| http://dx.doi.org/10.1021/acs.jmedchem.9b00918 | DOI Listing |
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