Microwave-assisted cleavage of cysteine perfluoroaryl thioethers.

The cysteine- perfluoroarene SNAr reaction allows for the sequence-specific attachment of dyes and affinity tags to peptides and proteins. However, while many methods exist for the desulfuration of native and functionalized cysteine residues, there are no reports of their application to perfluoroarylated cysteines. Herein we report both the hydrogenolysis of a perfluoroarylated cysteine to alanine and elimination to dehydroalanine, reactions that are both accelerated by microwave irradiation.

Comprehensive analysis of loops at protein-protein interfaces for macrocycle design.

Inhibiting protein-protein interactions (PPIs) with synthetic molecules remains a frontier of chemical biology. Many PPIs have been successfully targeted by mimicking α-helices at interfaces, but most PPIs are mediated by nonhelical, nonstrand peptide loops. We sought to comprehensively identify and analyze these loop-mediated PPIs by writing and implementing LoopFinder, a customizable program that can identify loop-mediated PPIs within all of the protein-protein complexes in the Protein Data Bank. Comprehensive analysis of the entire set of 25,005 interface loops revealed common structural motifs and unique features that distinguish loop-mediated PPIs from other PPIs. 'Hot loops', named in analogy to protein hot spots, were identified as loops with favorable properties for mimicry using synthetic molecules. The hot loops and their binding partners represent new and promising PPIs for the development of macrocycle and constrained peptide inhibitors.

Potential C-terminal-domain inhibitors of heat shock protein 90 derived from a C-terminal peptide helix.

Hsp90 is a molecular chaperone implicated in many diseases including cancer and neurodegenerative disease. Most inhibitors target the ATPase site in Hsp90's N-terminal domain, with relatively few inhibitors of other domains reported to date. Here, we show that peptides derived from a short helix at the C-terminus of Hsp90 show micromolar activity as Hsp90 inhibitors in vitro. These inhibitors do not block the N-terminal domain's ATP-binding site, and thus are likely to bind at the C-terminal domain. Substitutions and helix stapling were applied to demonstrate structure-activity relationships and improve activity. These helical peptides will help guide the design of a new class of inhibitors of Hsp90's C-terminal domain.

Getting in shape: controlling peptide bioactivity and bioavailability using conformational constraints.

Chemical biologists commonly seek out correlations between the physicochemical properties of molecules and their behavior in biological systems. However, a new paradigm is emerging for peptides in which conformation is recognized as the primary determinant of bioactivity and bioavailability. This review highlights an emerging body of work that directly addresses how a peptide's conformation controls its biological effects, cell penetration, and intestinal absorption. Based on this work, the dream of mimicking the potency and bioavailability of natural product peptides is getting closer to reality.