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
Misfolded Amyloid Ion Channels Present Mobile β-Sheet Subunits in Contrast to Conventional Ion Channels
Hyunbum Jang,Fernando Teran Arce,Ricardo Capone,Srinivasan Ramachandran,Ratnesh Lal,Ruth Nussinov,Ruth Nussinov +6 more
TL;DR: The emerging picture from large-scale simulations is that toxic ion channels formed by beta-sheets spontaneously break into loosely interacting dynamic units that associate and dissociate leading to toxic ionic flux, which sharply contrasts intact conventional gated channels that consist of tightly interacting alpha-helices that robustly prevent ion leakage, rather than hydrogen-bonded beta-strands.
Journal ArticleDOI
Mode-of-Action of Antimicrobial Peptides: Membrane Disruption vs. Intracellular Mechanisms
TL;DR: Experimental biophysical tools that can be employed with model membranes and bacterial cells to characterize the mode-of-action of antimicrobial peptides are reviewed.
Journal ArticleDOI
Design, synthesis, and structure-activity relationships of benzophenone-based tetraamides as novel antibacterial agents.
TL;DR: The discovery of a class of benzophenone containing compounds that possess good activity against MRSA, VISA, VRSA, and VRE and moderate activity against E. coli is presented and it is found that these agents cause membrane depolarization, indicating that the bacterial membrane was the primary site of action for these agents.
Journal ArticleDOI
Single and mixed-species trypanosome and microsporidia infections elicit distinct, ephemeral cellular and humoral immune responses in honey bees.
Ryan S. Schwarz,Jay D. Evans +1 more
TL;DR: It is shown that honey bees rapidly mount complex immune responses to both Nosema and Crithidia that are dynamic over time and that mixed-species infections significantly alter local and systemic immune gene transcription.
Journal ArticleDOI
Recombinant scorpine: a multifunctional antimicrobial peptide with activity against different pathogens.
Rebeca Carballar-Lejarazú,Mario H. Rodriguez,F de la Cruz Hernández-Hernández,José Ramos-Castañeda,Lourival D. Possani,M Zurita-Ortega,E Reynaud-Garza,Rosaura Hernández-Rivas,Thanasis G. Loukeris,Gareth J Lycett,Humberto Lanz-Mendoza +10 more
TL;DR: The recombinantly expressed scorpine in Anopheles gambie cells showed antibacterial activity against Bacillus subtilis and Klebsiella pneumoniae, and was generated viable and fertile transgenic Drosophila that overexpresses and correctly secretes RScp into the insect hemolymph, suggesting that the generation of transgenic mosquitoes resistant to different pathogens may be viable.
References
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Journal ArticleDOI
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Journal ArticleDOI
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