Daniel Amaro Sousa scite author profile

Antimicrobial peptides are widely expressed in organisms and have been linked to innate and acquired immunities in vertebrates. These compounds are constitutively expressed and rapidly induced at different cellular levels to interact directly with infectious agents and/or modulate immunoreactions involved in defense against pathogenic microorganisms. In invertebrates, antimicrobial peptides represent the major humoral defense system against infection, showing a diverse spectrum of action mechanisms, most of them related to plasma membrane disturbance and lethal alteration of microbial integrity. Marine invertebrates are widespread, extremely diverse, and constantly under an enormous microbial challenge from the ocean environment, itself altered by anthropic influences derived from industrialization and transportation. Consequently, this study reexamines the peptides isolated over the past 2 decades from different origins, bringing phyla not previously reviewed up to date. Moreover, a promising novel use of antimicrobial peptides as effective drugs in human and veterinary medicine could be based on their unusual properties and synergic counterparts as immune response humoral effectors, in addition to their direct microbicidal activity. This has been seen in many other marine proteins that are sufficiently immunogenic to humans, not necessarily in terms of antibody generation but as inflammation promoters and recruitment agents or immune enhancers.

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The use of versatile plant antimicrobial peptides in agribusiness and human health

Cândido

et al. 2014

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Identification and Structural Characterization of Novel Cyclotide with Activity against an Insect Pest of Sugar Cane

Pinto

Fensterseifer

Migliolo

et al. 2012

Journal of Biological Chemistry

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Background: Cyclotides are a family of plant-derived defense peptides. Results: Parigidin-br1, a novel cyclotide, shows insecticidal activity in vivo and in vitro. Mechanistic insights into the activity were provided by theoretical and electron microscopic studies. Conclusion:The cyclotide disrupts insect cell membranes and has potential applications as a biotechnological insecticide. Significance: The study provides an enhanced understanding of cyclotide activity against a sugarcane insect pest.

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Deciphering the Magainin Resistance Process of Escherichia coli Strains in Light of the Cytosolic Proteome

Maria-Neto

Cândido

Rodrigues

et al. 2012

Antimicrob Agents Chemother

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e Antimicrobial peptides (AMPs) are effective antibiotic agents commonly found in plants, animals, and microorganisms, and they have been suggested as the future of antimicrobial chemotherapies. It is vital to understand the molecular details that define the mechanism of action of resistance to AMPs for a rational planning of the next antibiotic generation and also to shed some light on the complex AMP mechanism of action. Here, the antibiotic resistance of Escherichia coli ATCC 8739 to magainin I was evaluated in the cytosolic subproteome. Magainin-resistant strains were selected after 10 subsequent spreads at subinhibitory concentrations of magainin I (37.5 mg · liter ؊1 ), and their cytosolic proteomes were further compared to those of magainin-susceptible strains through two-dimensional electrophoresis analysis. As a result, 41 differentially expressed proteins were detected by in silico analysis and further identified by tandem mass spectrometry de novo sequencing. Functional categorization indicated an intense metabolic response mainly in energy and nitrogen uptake, stress response, amino acid conversion, and cell wall thickness. Indeed, data reported here show that resistance to cationic antimicrobial peptides possesses a greater molecular complexity than previously supposed, resulting in cell commitment to several metabolic pathways.

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