Journal ArticleDOI
Membrane-Active Small Molecules: Designs Inspired by Antimicrobial Peptides.
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TLDR
This review focuses on the progress that has been made toward the development of small molecules that emulate the properties of AMPs, both in terms of design and biological activity.Abstract:
Infectious diseases continue to be one of the major contributors to human morbidity. The rapid rate at which pathogenic microorganisms have developed resistance against frontline antimicrobials has compelled scientists to look for new alternatives. Given their vast antimicrobial repertoire, substantial research effort has been dedicated toward the development of antimicrobial peptides (AMPs) as alternative drugs. However, inherent limitations of AMPs have driven substantial efforts worldwide to develop synthetic mimics of AMPs. This review focuses on the progress that has been made toward the development of small molecules that emulate the properties of AMPs, both in terms of design and biological activity. Herein we provide an extensive discussion of the structural features of various designs and we examine biological properties that have been exploited. Furthermore, we raise a number of questions for which the field has yet to provide solutions and discuss possible future research directions that remain either unexploited or underexploited.read more
Citations
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Mechanisms and consequences of bacterial resistance to antimicrobial peptides
TL;DR: Routine clinical administration of AMPs to treat bacterial infections may select for resistant bacterial pathogens capable of better evading the innate immune system, as well as the ramifications of therapeutic levels of exposure on the development of AMP resistance and bacterial pathogenesis.
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Antimicrobial Peptides: Mechanisms of Action and Resistance:
TL;DR: Recent advances in understanding of the diverse mechanisms of action of cationic AMPs are described and the bacterial resistance against these peptides and the recently developed peptide GL13K is used as an example.
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Alternatives to Conventional Antibiotics in the Era of Antimicrobial Resistance
TL;DR: A review of the various promising approaches that have been adopted in the search for therapies that can substitute for antibiotics, including genetically modified phages, antibacterial oligonucleotides, and CRISPR-Cas9.
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Recent Progress in Polymer Research to Tackle Infections and Antimicrobial Resistance.
TL;DR: This review aims to discuss polymer-based antimicrobial strategies with a focus on their current advancement in the field, along with future directions for further expansion of the field toward tackling infections and antimicrobial resistance.
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Advances in Development of Antimicrobial Peptidomimetics as Potential Drugs
TL;DR: Focus is on the developments reported in the last decade of peptidomimetics with a modular structure of residues connected via amide linkages with respect to their design, synthesis, antimicrobial activity, cytotoxic side effects as well as their potential applications as anti-infective agents.
References
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Antimicrobial peptides of multicellular organisms
TL;DR: As the need for new antibiotics becomes more pressing, could the design of anti-infective drugs based on the design principles these molecules teach us?
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The biofilm matrix
TL;DR: The functions, properties and constituents of the EPS matrix that make biofilms the most successful forms of life on earth are described.
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Antimicrobial peptides: pore formers or metabolic inhibitors in bacteria?
TL;DR: 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.
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Antimicrobial and host-defense peptides as new anti-infective therapeutic strategies.
TL;DR: The role of cationic host-defense peptides in modulating the innate immune response and boosting infection-resolving immunity while dampening potentially harmful pro-inflammatory (septic) responses gives these peptides the potential to become an entirely new therapeutic approach against bacterial infections.
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Mechanisms of Antimicrobial Peptide Action and Resistance
TL;DR: The intention of this review is to illustrate the contemporary structural and functional themes among mechanisms of antimicrobial peptide action and resistance.