The clinical utility of peptides is limited by their rapid degradation by endogenous proteases. Modification of the peptide backbone can generate functional analogues with enhanced proteolytic stability. Existing principles for the design of such oligomers have focused primarily on effective structural mimicry. A more robust strategy would incorporate a rational approach for engineering maximal proteolytic stability at minimal unnatural residue content. We report here the systematic comparison of the proteolytic resistance imparted by four backbone modifications commonly employed in the design of protease-stable analogues of peptides with complex folding patterns. The degree of protection is quantified as a function of modification type, position, and tandem substitution in the context of a long, unstructured host sequence and a canonical serine protease. These results promise to inform ongoing work to develop biostable mimics of increasingly complex peptides and proteins.
Peptides containing α,α-dialkylated α-amino acids, owing to their ability to disrupt aggregation of β-amyloid proteins, have therapeutic potential in the treatment of neurodegenerative diseases. Thermodynamic and structural analyses are reported for a series of β-hairpin peptides containing α,α-dialkylated α-amino acids with varying side-chain lengths. Results of these experiments show that α,α-dialkylated α-amino acids with side-chain lengths longer than one carbon unit are tolerated in a β-hairpin, although at a moderate cost to folded stability.
Combining natural α-amino acid residues and unnatural β-amino acid residues in a single chain leads to heterogeneous-backbone oligomers called α/β-peptides. Despite their unnatural backbones, α/β-peptides can manifest a variety of folding patterns and biological functions reminiscent of natural peptides and proteins. Moreover, incorporation of β-residues can impart useful properties to the oligomer such as improved stability to degradation by protease enzymes. α/β-Peptides have been developed that engage diverse biological targets, including proteins involved in apoptotic signaling, HIV-cell fusion, hormone signaling, and angiogenesis. For some systems, promising results obtained in vitro have paved the way for demonstrated activity in vivo, where α/β-peptides show equal potency and improved duration of effect compared to α-peptide counterparts.
The amphimedosides, discovered in 2006, are the first examples of naturally occurring glycosylated alkoxyamines. We report syntheses of amphimedosides A-C that feature a stereoselective oxyamine neoglycosylation and found that these alkaloids display modest cytotoxicity toward seven diverse human cancer cell lines, exhibiting IC(50) values ranging from 3.0 μM to greater than 100 μM.
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