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
Sap Transporter Mediated Import and Subsequent Degradation of Antimicrobial Peptides in Haemophilus
Catherine L. Shelton,Forrest K. Raffel,Wandy L. Beatty,Sara M. Johnson,Kevin M. Mason,Kevin M. Mason +5 more
TL;DR: It is demonstrated, by antibody-mediated neutralization of AMP in vivo, that SapA functions to directly counter AMP lethality during NTHI infection, a mechanism of Sap mediated import of AMPs, a novel strategy to reduce periplasmic and inner membrane accumulation of these host defense peptides.
Journal ArticleDOI
Systematic Approach to Optimizing Specifically Targeted Antimicrobial Peptides against Streptococcus mutans
TL;DR: The design and synthesis of a large number of STAMPs targeting Streptococcus mutans, the primary etiologic agent of human dental caries, are sought in order to identify candidate peptides with increased killing speed and selectivity compared with their unmodified precursor antimicrobial peptides (AMPs).
Journal ArticleDOI
Mode of action of human β-defensin 3 against Staphylococcus aureus and transcriptional analysis of responses to defensin challenge
TL;DR: It is proposed that the antibiotic activity of hBD3 is based on interference with the organisation over space and time of membrane-bound multienzyme machineries such as the electron transport chain and, in particular, the cell wall biosynthesis complex rather than on formation of defined transmembrane pores.
Journal ArticleDOI
Novel lactoferrampin antimicrobial peptides derived from human lactoferrin.
TL;DR: By increasing the net positive charge near the C-terminal end of human lactoferrampin, a significant increase in its antibacterial and Candidacidal activity was obtained, and differential scanning calorimetry studies indicate that this peptide is capable of inserting into the hydrophobic core of a membrane.
Journal ArticleDOI
Antimicrobial and DNA-binding activities of the peptide fragments of human lactoferrin and histatin 5 against Streptococcus mutans
TL;DR: The results demonstrate that hLF1-11 and P-113 display antibacterial activity against dental cavity-inducing S. mutans through an intracellular mechanism that could involve DNA binding.
References
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