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
Citations
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Journal ArticleDOI
On the selectivity and efficacy of defense peptides with respect to cancer cells.
TL;DR: Differences between the anticancer actions of ACPs seem to relate to different levels of interplay between these peptide and membrane‐based factors.
Journal ArticleDOI
Application of Antimicrobial Peptides of the Innate Immune System in Combination With Conventional Antibiotics-A Novel Way to Combat Antibiotic Resistance?
M. S. Zharkova,D. S. Orlov,Olga Yu. Golubeva,Oleg B. Chakchir,Igor E. Eliseev,Tatyana M. Grinchuk,O. V. Shamova +6 more
TL;DR: Examination of a combined action of natural AMPs with different structure and mode of action with varied antibiotic agents found that synergy in antibacterial action mainly occurs between highly membrane-active AMPs and antibiotics with intracellular targets, suggesting bioavailability increase as the main model of such interaction.
Journal ArticleDOI
Design of stapled antimicrobial peptides that are stable, nontoxic and kill antibiotic-resistant bacteria in mice.
Rida Mourtada,Rida Mourtada,Henry D. Herce,Daniel J. Yin,Jamie A. Moroco,Thomas E. Wales,John R. Engen,Loren D. Walensky +7 more
TL;DR: A 58-member library of stapled AMPs (StAMPs) based on magainin II is analyzed and the insights from structure–function–toxicity measurements are applied to devise an algorithm for the design of stable, protease-resistant, potent and nontoxic StAMP prototypes.
Journal ArticleDOI
Antibacterial peptides and proteins with multiple cellular targets.
TL;DR: As a cumulative effect, multifunctional and target‐specific (agonist or antagonist) antimicrobial peptides and proteins interfere with more than one bacterial function at low concentrations, eliminating toxicity concerns of the earlier generations of antibacterial peptides observed in the clinical setting.
Journal ArticleDOI
Helical antimicrobial polypeptides with radial amphiphilicity
Meng-Hua Xiong,Michelle W. Lee,Rachael A. Mansbach,Ziyuan Song,Yan Bao,Richard M. Peek,Catherine Yao,Lin Feng Chen,Andrew L. Ferguson,Gerard C. L. Wong,Jianjun Cheng +10 more
TL;DR: The design of a class of cationic, helical homo-polypeptide antimicrobials with a hydrophobic internal helical core and a charged exterior shell, possessing unprecedented radial amphiphilicity is reported, allowing improved permeation of commercial antibiotics in bacteria and enhanced antimicrobial activity by one to two orders of magnitude.
References
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