Anisaxins, helical antimicrobial peptides from marine parasites, kill resistant bacteria by lipid extraction and membrane disruption

Roncevic, T.; Gerdol, M.; Mardirossian, M.; Males, M.; Cvjetan, S.; Benincasa, M.; Maravi, A.; Gajski, G.; Krce, L.; Aviani, I.; Hrabar, J.; Trumbic, Z.; Derks, M.; Pallavicini, A.; Weingarth, M.; Zorani, L.; Tossi, A.; Mladineo, Ivona

doi:https://dx.doi.org/10.1016/j.actbio.2022.04.025

Number of the records: 1

Anisaxins, helical antimicrobial peptides from marine parasites, kill resistant bacteria by lipid extraction and membrane disruption

1.

SYSNO ASEP	0559179
Document Type	J - Journal Article
R&D Document Type	Journal Article
Subsidiary J	Článek ve WOS
Title	Anisaxins, helical antimicrobial peptides from marine parasites, kill resistant bacteria by lipid extraction and membrane disruption
Author(s)	Roncevic, T. (HR) Gerdol, M. (IT) Mardirossian, M. (IT) Males, M. (HR) Cvjetan, S. (HR) Benincasa, M. (IT) Maravi, A. (HR) Gajski, G. (HR) Krce, L. (HR) Aviani, I. (HR) Hrabar, J. (HR) Trumbic, Z. (HR) Derks, M. (NL) Pallavicini, A. (IT) Weingarth, M. (NL) Zorani, L. (HR) Tossi, A. (IT) Mladineo, Ivona (BC-A)_{RID, ORCID}
Number of authors	18
Source Title	Acta Biomaterialia. - : Elsevier - ISSN 1742-7061 Roč. 146, JUL (2022), s. 131-144
Number of pages	14 s.
Publication form	Print - P
Language	eng - English
Country	GB - United Kingdom
Keywords	helical antimicrobial peptides ; Anisakis ; Lipid extraction ; Molecular leakage ; Multi-drug resistant bacteria ; Parasites
Subject RIV	JJ - Other Materials
OECD category	Textiles
Method of publishing	Open access
Institutional support	BC-A - RVO:60077344
UT WOS	000813340300002
EID SCOPUS	85129983092
DOI	10.1016/j.actbio.2022.04.025
Annotation	An infecting and propagating parasite relies on its innate defense system to evade the host's immune response and to survive challenges from commensal bacteria. More so for the nematode Anisakis, a marine parasite that during its life cycle encounters both vertebrate and invertebrate hosts and their highly diverse microbiotas. Although much is still unknown about how the nematode mitigates the effects of these microbiota, its antimicrobial peptides likely play an important role in its survival. We identified anisaxins, the first cecropin-like helical antimicrobial peptides originating from a marine parasite, by mining available genomic and transcriptomic data for Anisakis spp. These peptides are potent bactericidal agents in vitro , selectively active against Gram-negative bacteria, including multi-drug resistant strains, at sub-micromolar concentrations. Their interaction with bacterial membranes was confirmed by solid state NMR (ssNMR) and is highly dependent on the peptide concentration as well as peptide to lipid ratio, as evidenced by molecular dynamics (MD) simulations. MD results indicated that an initial step in the membranolytic mode of action involves membrane bulging and lipid extraction, a novel mechanism which may underline the peptides' potency. Subsequent steps include membrane permeabilization leading to leakage of molecules and eventually cell death, but without visible macroscopic damage, as shown by atomic force microscopy and flow cytometry. This membranolytic antibacterial activity does not translate to cytotoxicity towards human peripheral blood mononuclear cells (HPBMCs), which was minimal at well above bactericidal concentrations, making anisaxins promising candidates for further drug development.
Workplace	Biology Centre (since 2006)
Contact	Dana Hypšová, eje@eje.cz, Tel.: 387 775 214
Year of Publishing	2023
Electronic address	https://www.sciencedirect.com/science/article/pii/S1742706122002343?via%3Dihub

Number of the records: 1