Web Release Date: November 23,
Mimicry of Antimicrobial Host-Defense Peptides by Random Copolymers
and
Department of Chemistry and Department of Pharmacology, University of Wisconsin, Madison, Wisconsin 53706, and Department of Biochemistry and Biomedical Sciences, McMaster University Health Sciences Centre, Hamilton, Ontario L8N 3Z5, Canada
Received September 20, 2007
Abstract:
Efforts to generate antibacterial agents via mimicry of host-defense peptides have focused on discrete oligomers that can adopt a regular globally amphiphilic conformation in the presence of bacterial cell membranes and ultimately disrupt those membranes. Although considerable success has been achieved with this approach, application of the resulting molecules is hampered by the high cost associated with stepwise oligomer synthesis. We show that random poly-
-peptide copolymers, prepared by ring-opening polymerization of -lactams, can be tuned to display good activity against a panel of four bacteria along with low lytic activity toward human red blood cells. These findings support a nonclassical design hypothesis for antibacterial agents.
Download the full text: PDF | HTML
