Mining the heparinome for cryptic antimicrobial peptides that selectively kill Gram-negative bacteria

Mining the heparinome for cryptic antimicrobial peptides that selectively kill Gram-negative bacteria

Abstract Glycosaminoglycan (GAG)-binding proteins regulating essential processes such as cell growth and migration are essential for cell homeostasis. As both GAGs and the lipid A disaccharide core of Gram-negative bacteria contain negatively charged disaccharide units, we hypothesized that GAG-bind...

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Main Authors: Roberto Bello-Madruga, Daniel Sandín, Javier Valle, Jordi Gómez, Laura Comas, María Nieves Larrosa, Juan José González-López, María Ángeles Jiménez, David Andreu, Marc Torrent
Format: Article
Language:English
Published: Springer Nature 2025-05-01
Series:Molecular Systems Biology
Subjects:
Antimicrobial Peptide
Heparin-binding Protein
Lipopolysaccharide
Heparin
Glycosaminoglycans
Online Access:https://doi.org/10.1038/s44320-025-00120-6
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Summary:Abstract Glycosaminoglycan (GAG)-binding proteins regulating essential processes such as cell growth and migration are essential for cell homeostasis. As both GAGs and the lipid A disaccharide core of Gram-negative bacteria contain negatively charged disaccharide units, we hypothesized that GAG-binding proteins could also recognize LPS and enclose cryptic antibiotic motifs. Here, we report novel antimicrobial peptides (AMPs) derived from heparin-binding proteins (HBPs), with specific activity against Gram-negative bacteria and high LPS binding. We used computational tools to locate antimicrobial regions in 82% of HBPs, most of those colocalizing with putative heparin-binding sites. To validate these results, we synthesized five candidates [HBP-1-5] that showed remarkable activity against Gram-negative bacteria, as well as a strong correlation between heparin and LPS binding. Structural characterization of these AMPs shows that heparin or LPS recognition promotes a conformational arrangement that favors binding. Among all analogs, HBP-5 displayed the highest affinity for both heparin and LPS, with antimicrobial activities against Gram-negative bacteria at the nanomolar range. These results suggest that GAG-binding proteins are involved in LPS recognition, which allows them to act also as antimicrobial proteins. Some of the peptides reported here, particularly HBP-5, constitute a new class of AMPs with specific activity against Gram-negative bacteria.
ISSN:1744-4292

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