Nanoparticles: New Antimicrobial Agents

Dear Colleagues,

Both Gram-negative, Gram-positive pathogens and fungi are evolving as clinically relevant superbugs, due the incessant emergence of resistance to the most part of available antibiotics. Mimicking natural antimicrobial peptides (NAMPs), which have shown potent microbicidal effects and low tendency to develop resistance but are endowed with high haemolytic toxicity and low stability, more stable and low-cost cationic macromolecules, are continuously synthesized and tested on various pathogenic species, with the aim of reducing the incidence of fatal infections in both the general population and fragile individuals. Among cationic macromolecules, dendrimers are nonpareil compounds possessing highly controlled nanosized dimensions, spherical shape, and tree-like architecture. In addition to have proven intrinsic potent antibacterial effects, dendrimers with cationic surface, having contemporary inner cavities and hydrophilic peripheral functions, can encapsulate hydrophobic non-water-soluble antibacterial drugs to enhance their water-solubility, protect them from early inactivation, promote their protracted release, thus decreasing their systemic toxicity, and realizing a synergistic effect. Collectively, also polymer and copolymer nanoparticles are regarded as a promising strategy to achieve multifunctional materials, hybrid nanoparticles or nanocomposites possessing remarkable antimicrobial activities. Also, multifunctional nanoparticles, including dendrimers, polymers and copolymers offer the possibility to be further functionalized by linking target molecules or antibodies to improve their therapeutic efficacy, direct their effects and reduce their possible toxicity.

This Special Issue aims to provide a platform for molecular mechanistic research on new antimicrobial agents with a special focus on cationic antimicrobial materials and structural strategies. Furthermore, studies of formulations of the developed agents, characterized by antibacterial activity and low cytotoxicity toward mammalian cells, are welcome.

Dr. Silvana Alfei
Guest Editor

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• multi-drug resistant Gram-negative and Gram-positive pathogens

• clinically relevant superbugs
• severe and almost untreatable infections
• immunocompromised individuals
• synthetic antimicrobial cationic macromolecules
• synthetic cationic dendrimers, polymers, and copolymers
• polymerizing strategies
• natural and synthetic polypeptides
• amino-acid modified macromolecules
• electrostatic interactions and membrane permeabilization
• membrane disruptors
• drug delivery systems