Labyrinthopeptin A2 disrupts raft domains.

Labyrinthopeptins constitute a class of ribosomal synthesized peptides belonging to the type III family of lantibiotics. They exist in different variants and display broad antiviral activities as well as show antiallodynic activity. Although their mechanism of action is not understood, it has been described that Labyrinthopeptins interact with membrane phospholipids modulating its biophysical properties and point out to membrane destabilization as its main point of action. We have used all-atom molecular dynamics to study the location of labyrinthopeptin A2 in a complex membrane as well as the existence of specific interactions with membrane lipids. Our results indicate that labyrinthopeptin A2, maintaining its globular structure, tends to be placed at the membrane interface, mainly between the phosphate atoms of the phospholipids and the oxygen atom of cholesterol modulating the biophysical properties of the membrane lipids. Outstandingly, we have found that labyrinthopeptin A2 tends to be preferentially surrounded by sphingomyelin while excluding cholesterol. The bioactive properties of labyrinthopeptin A2 could be attributed to the specific disorganization of raft domains in the membrane and the concomitant disruption of the overall membrane organization. These results support the improvement of Labyrinthopeptins as therapeutic molecules, opening up new opportunities for future medical advances.
Competing Interests: Declaration of Competing Interest The author declares that there are no conflicts of interest.
(Copyright © 2023 The Author. Published by Elsevier B.V. All rights reserved.)