Abstract
Antimicrobial peptides (AMPs) are of growing interest as potential candidates for antibiotics to which antimicrobial resistance increases slowly. In this article, we perform the firstin silicostudy of the syntheticβsheet-forming AMP GL13K. Through atomistic simulations of single and multipeptide systems under different charge conditions, we are able to shine a light on the short timescales of early aggregation. We find that isolated peptide conformations are primarily dictated by sequence rather than charge, whereas changing charge has a significant impact on the conformational free energy landscape of multi-peptide systems. We demonstrate that the lack of charge-charge repulsion is a sufficient minimal model for experimentally observed aggregation. Overall, our work explores the molecular biophysical underpinnings of the first stages of aggregation of a unique AMP, laying necessary groundwork for its further development as an antibiotic candidate.
Publisher
Cold Spring Harbor Laboratory
Reference56 articles.
1. World-Health-Organization, Bracing for superbugs: Strengthening environmental action in the one health response to antimicrobial resistance 2023.
2. M. Mahlapuu , J. Håkansson , L. Ringstad , C. Björn , Frontiers in cellular and infection microbiology 2016, page 194.
3. Amphipathic α helical antimicrobial peptides.
4. Direct visualization of the alamethicin pore formed in a planar phospholipid matrix
5. The expanding scope of antimicrobial peptide structures and their modes of action