Journal ArticleDOI
Antimicrobial peptides: pore formers or metabolic inhibitors in bacteria?
TLDR
In this review the different models of antimicrobial-peptide-induced pore formation and cell killing are presented and several observations suggest that translocated peptides can alter cytoplasmic membrane septum formation, inhibit cell-wall synthesis, inhibit nucleic-acid synthesis, inhibits protein synthesis or inhibit enzymatic activity.Abstract:
Antimicrobial peptides are an abundant and diverse group of molecules that are produced by many tissues and cell types in a variety of invertebrate, plant and animal species. Their amino acid composition, amphipathicity, cationic charge and size allow them to attach to and insert into membrane bilayers to form pores by 'barrel-stave', 'carpet' or 'toroidal-pore' mechanisms. Although these models are helpful for defining mechanisms of antimicrobial peptide activity, their relevance to how peptides damage and kill microorganisms still need to be clarified. Recently, there has been speculation that transmembrane pore formation is not the only mechanism of microbial killing. In fact several observations suggest that translocated peptides can alter cytoplasmic membrane septum formation, inhibit cell-wall synthesis, inhibit nucleic-acid synthesis, inhibit protein synthesis or inhibit enzymatic activity. In this review the different models of antimicrobial-peptide-induced pore formation and cell killing are presented.read more
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Journal ArticleDOI
Antimicrobial activity of lysozyme with special relevance to milk
TL;DR: This review discusses the antimicrobial activity of lysozyme with special emphasis on milk’s lyso enzyme, and attempts to shed some light on the recent advances elucidating the mechanism of its antimacterial activity against sensitive microorganisms as well as the means used by some bacteria to resist such an activity.
Journal ArticleDOI
Incorporation of a Hydrophobic Antibacterial Peptide into Amphiphilic Polyelectrolyte Multilayers : A Bioinspired Approach to Prepare Biocidal Thin Coatings
Aurélie Guyomard,Emmanuelle Dé,Thierry Jouenne,Jean-Jacques Malandain,Guy Muller,Karine Glinel +5 more
TL;DR: A non‐water‐soluble natural antibacterial peptide, gramicidin A, has been successfully incorporated into polyelectrolyte assemblies to elaborate biocidal thin films using a double strategy of complexing the peptide by a non‐denaturing anionic amphiphilic polysaccharide, namely a hydrophobically modified carboxymethylpullulan.
Journal ArticleDOI
Insight into the mechanisms of adenovirus capsid disassembly from studies of defensin neutralization.
Jason G. Smith,Mariena Silvestry,Steffen Lindert,Wuyuan Lu,Glen R. Nemerow,Phoebe L. Stewart +5 more
TL;DR: A mechanism in which defensin binding to critical sites on the AdV capsid prevents vertex removal and thereby blocks subsequent steps in uncoating that are required for release of protein VI and endosomalysis during infection is suggested.
Journal ArticleDOI
Designing improved active peptides for therapeutic approaches against infectious diseases.
Bárbara Gomes,Marcelo T. Augusto,Mário R. Felício,Axel Hollmann,Octavio L. Franco,Sónia Gonçalves,Nuno C. Santos +6 more
TL;DR: The current status of peptide drug development is summarized, focusing on antiviral and antimicrobial peptide activities, highlighting the design improvements needed, and those already being used, to overcome the drawbacks of the therapeutic application of biologically active peptides.
Journal ArticleDOI
Vitamin D: emerging roles in infection and immunity
TL;DR: Vitamin D has a critical role in the innate immune system through the production of antimicrobial peptides – particularly cathelicidin, and would appear to have an important role in respiratory tract, skin and potentially gut health.
References
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Journal ArticleDOI
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Journal ArticleDOI
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