Display Selection of a Hybrid Foldamer-Peptide Macrocycle.

Expanding the chemical diversity of peptide macrocycle libraries for display selection is desirable to improve their potential to bind biomolecular targets. We now have implemented a considerable expansion through a large aromatic helical foldamer inclusion. A foldamer was first identified that undergoes flexizyme-mediated tRNA acylation and that is capable of initiating ribosomal translation with yields sufficiently high to perform an mRNA display selection of macrocyclic foldamer-peptide hybrids.

Differential Peptide Multi-Macrocyclizations at the Surface of a Helical Foldamer Template.

Hybrid sequences comprising a peptide with several Cys residues and an aromatic foldamer helix with several chloroacetamide functions at its surface were synthesized. Such products may in principle form numerous macromulticyclic thioether products by intramolecularly combining all Cys residues and all chloroacetamide functions. However, we show that the reactive sites on the structurally defined helix can be placed at such locations that the peptide selectively stitches itself to form a series of different macrocycles within mostly one preferred product.

Conformational interplay in hybrid peptide-helical aromatic foldamer macrocycles.

Macrocyclic peptides are an important class of bioactive substances. When inserting an aromatic foldamer segment in a macrocyclic peptide, the strong folding propensity of the former may influence the conformation and alter the properties of the latter. Such an insertion is relevant because some foldamer-peptide hybrids have recently been shown to be tolerated by the ribosome, prior to forming macrocycles, and can thus be produced using an translation system.

Precise Enzymatic Cleavage Sites for Improved Bioactivity of siRNA Lipo-Polyplexes.

Sequence-defined cationic lipo-oligomers are potent siRNA carriers, forming stable lipo-polyplexes based on both electrostatic and hydrophobic interactions and, after endocytosis and endosomal protonation, facilitating the delivery of siRNA into the cytosol. After completion of the nucleic acid delivery process, carriers should be readily biodegradable to ensure minimum accumulation of amphiphilic molecules that are harmful to lysosomes and other intracellular organelles. Endolysosomal enzymes may degrade a surplus of carrier molecules left over in lysosomes and thereby facilitate the generation and rapid excretion of cleavage products.