Novel Helical Trp‐ and Arg‐Rich Antimicrobial Peptides Locate Near Membrane Surfaces and Rigidify Lipid Model Membranes

Saheli Mitra; Mark Coopershlyak; Yunshu Li; Bhairavi Chandersekhar; Rachel Koenig; Mei-Tung Chen; Brandt Evans; Frank Heinrich; Berthony Deslouches; Stephanie Tristram-Nagle

doi:10.1002/anbr.202300013

Advanced NanoBiomed Research (May 2023)

Novel Helical Trp‐ and Arg‐Rich Antimicrobial Peptides Locate Near Membrane Surfaces and Rigidify Lipid Model Membranes

Saheli Mitra,
Mark Coopershlyak,
Yunshu Li,
Bhairavi Chandersekhar,
Rachel Koenig,
Mei-Tung Chen,
Brandt Evans,
Frank Heinrich,
Berthony Deslouches,
Stephanie Tristram-Nagle

Affiliations

Saheli Mitra: Biological Physics Group Physics Department Carnegie Mellon University Pittsburgh PA 15213 USA
Mark Coopershlyak: Biological Physics Group Physics Department Carnegie Mellon University Pittsburgh PA 15213 USA
Yunshu Li: Biological Physics Group Physics Department Carnegie Mellon University Pittsburgh PA 15213 USA
Bhairavi Chandersekhar: Biological Physics Group Physics Department Carnegie Mellon University Pittsburgh PA 15213 USA
Rachel Koenig: Biological Physics Group Physics Department Carnegie Mellon University Pittsburgh PA 15213 USA
Mei-Tung Chen: Biological Physics Group Physics Department Carnegie Mellon University Pittsburgh PA 15213 USA
Brandt Evans: Biological Physics Group Physics Department Carnegie Mellon University Pittsburgh PA 15213 USA
Frank Heinrich: Biological Physics Group Physics Department Carnegie Mellon University Pittsburgh PA 15213 USA
Berthony Deslouches: Department of Environmental and Occupational Health University of Pittsburgh Pittsburgh PA 15261 USA
Stephanie Tristram-Nagle: Biological Physics Group Physics Department Carnegie Mellon University Pittsburgh PA 15213 USA

DOI: https://doi.org/10.1002/anbr.202300013
Journal volume & issue: Vol. 3, no. 5
pp. n/a – n/a

Abstract

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Antibiotics are losing effectiveness as bacteria become resistant to conventional drugs. To find new alternatives, antimicrobial peptides (AMPs) are rationally designed with different lengths, charges, hydrophobicities (H), and hydrophobic moments (μH), containing only three types of amino acids: arginine, tryptophan, and valine. Six AMPs with low minimum inhibitory concentrations (MICs) and gram‐positive (G(+))> Euk33 (eukaryotic with 33 mol% cholesterol). The two most effective peptides, E2‐35 (16 amino acid [AA] residues) and E2‐05 (22 AAs), are predominantly helical in G(–) IM and G(+) LMMs. AMP/membrane interactions such as membrane elasticity, chain order parameter, and location of the peptides in the membrane are investigated by low‐angle and wide‐angle X‐ray diffuse scattering (XDS). It is found that headgroup location correlates with efficacy and toxicity. The membrane bending modulus KC displays nonmonotonic changes due to increasing concentrations of E2‐35 and E2‐05 in G(–) and G(+) LMMs, suggesting a bacterial killing mechanism where domain formation causes ion and water leakage.

Published in Advanced NanoBiomed Research

ISSN: 2699-9307 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Chemical technology: Biotechnology; Medicine: Medicine (General): Medical technology
Website: https://onlinelibrary.wiley.com/journal/26999307

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