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Membrane interactions of Ocellatins. Where do antimicrobial gaps stem from?

Authors :
Carolina S. Ferreira
Burkhard Bechinger
Francisco Gomes Neto
Jarbas M. Resende
Evgeniy S. Salnikov
Daniel A. G. R. Michel
Jade C. L. Oliveira
Rodrigo M. Verly
José Muñoz-López
Source :
Amino Acids. 53:1241-1256
Publication Year :
2021
Publisher :
Springer Science and Business Media LLC, 2021.

Abstract

The antimicrobial peptides Ocellatin-LB1, -LB2 and -F1, isolated from frogs, are identical from residue 1 to 22, which correspond to the -LB1 sequence, whereas -LB2 carries an extra N and -F1 additional NKL residues at their C-termini. Despite the similar sequences, previous investigations showed different spectra of activities and biophysical investigations indicated a direct correlation between both membrane-disruptive properties and activities, i.e., ocellatin-F1 > ocellatin-LB1 > ocellatin-LB2. This study presents experimental evidence as well as results from theoretical studies that contribute to a deeper understanding on how these peptides exert their antimicrobial activities and how small differences in the amino acid composition and their secondary structure can be correlated to these activity gaps. Solid-state NMR experiments allied to the simulation of anisotropic NMR parameters allowed the determination of the membrane topologies of these ocellatins. Interestingly, the extra Asn residue at the Ocellatin-LB2 C-terminus results in increased topological flexibility, which is mainly related to wobbling of the helix main axis as noticed by molecular dynamics simulations. Binding kinetics and thermodynamics of the interactions have also been assessed by Surface Plasmon Resonance and Isothermal Titration Calorimetry. Therefore, these investigations allowed to understand in atomic detail the relationships between peptide structure and membrane topology, which are in tune within the series -F1 > > -LB1 ≥ -LB2, as well as how peptide dynamics can affect membrane topology, insertion and binding.

Details

ISSN :
14382199 and 09394451
Volume :
53
Database :
OpenAIRE
Journal :
Amino Acids
Accession number :
edsair.doi...........eaba8c8b0579d5460844644782e3eed1