Protein complex formation depends on the interplay between preorganization and flexibility of the binding epitopes involved. The design of epitope mimetics typically focuses on stabilizing a particular bioactive conformation, often without considering conformational dynamics, which limits the potential of peptidomimetics against challenging targets such as transcription factors. We developed a peptide-derived inhibitor of the NF-Y transcription factor by first constraining the conformation of an epitope through hydrocarbon stapling and then fine-tuning its flexibility. In the initial set of constrained peptides, a single non-interacting α-methyl group was observed to have a detrimental effect on complex stability. Biophysical characterization revealed how this methyl group affects the conformation of the peptide in its bound state. Adaption of the methylation pattern resulted in a peptide that inhibits transcription factor assembly and subsequent recruitment to the target DNA.
Constrained Peptides with Fine-Tuned Flexibility Inhibit NF-Y Transcription Factor Assembly / Jeganathan, Sadasivam; Wendt, Mathias; Kiehstaller, Sebastian; Brancaccio, Diego; Kuepper, Arne; Pospiech, Nicole; Carotenuto, Alfonso; Novellino, Ettore; Hennig, Sven; Grossmann, Tom N. - In: ANGEWANDTE CHEMIE. INTERNATIONAL EDITION. - ISSN 1433-7851. - (2019). [10.1002/anie.201907901]
Constrained Peptides with Fine-Tuned Flexibility Inhibit NF-Y Transcription Factor Assembly
Brancaccio, Diego;Carotenuto, Alfonso;Novellino, Ettore;
2019
Abstract
Protein complex formation depends on the interplay between preorganization and flexibility of the binding epitopes involved. The design of epitope mimetics typically focuses on stabilizing a particular bioactive conformation, often without considering conformational dynamics, which limits the potential of peptidomimetics against challenging targets such as transcription factors. We developed a peptide-derived inhibitor of the NF-Y transcription factor by first constraining the conformation of an epitope through hydrocarbon stapling and then fine-tuning its flexibility. In the initial set of constrained peptides, a single non-interacting α-methyl group was observed to have a detrimental effect on complex stability. Biophysical characterization revealed how this methyl group affects the conformation of the peptide in its bound state. Adaption of the methylation pattern resulted in a peptide that inhibits transcription factor assembly and subsequent recruitment to the target DNA.| File | Dimensione | Formato | |
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