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Anti-antimicrobial peptides: folding-mediated host defense antagonists.

The Journal of biological chemistry (2013-06-06)
Lloyd Ryan, Baptiste Lamarre, Ting Diu, Jascindra Ravi, Peter J Judge, Adam Temple, Matthew Carr, Eleonora Cerasoli, Bo Su, Howard F Jenkinson, Glenn Martyna, Jason Crain, Anthony Watts, Maxim G Ryadnov
ABSTRACT

Antimicrobial or host defense peptides are innate immune regulators found in all multicellular organisms. Many of them fold into membrane-bound α-helices and function by causing cell wall disruption in microorganisms. Herein we probe the possibility and functional implications of antimicrobial antagonism mediated by complementary coiled-coil interactions between antimicrobial peptides and de novo designed antagonists: anti-antimicrobial peptides. Using sequences from native helical families such as cathelicidins, cecropins, and magainins we demonstrate that designed antagonists can co-fold with antimicrobial peptides into functionally inert helical oligomers. The properties and function of the resulting assemblies were studied in solution, membrane environments, and in bacterial culture by a combination of chiroptical and solid-state NMR spectroscopies, microscopy, bioassays, and molecular dynamics simulations. The findings offer a molecular rationale for anti-antimicrobial responses with potential implications for antimicrobial resistance.