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As we are on the cusp of the “post-antibiotic” era due to rapid spread of drug resistant bacteria, there is an urgent need for new antimicrobials that are not susceptible to bacterial resistance mechanisms. In this review, we will discuss the recent development of “polymer therapeutics” with antimicrobial activity. Learning from host-defence peptides, we propose the biomimetic design of synthetic polymers to target bacterial cell membranes, which act by compromising the membrane integrity. The discussion is extended to the future challenges and opportunities of antimicrobial polymers for clinical applications. 

Abstract Biomimetic antimicrobial polymers have been an area of great interest as the need for novel antimicrobial compounds grows due to the development of resistance. These polymers were designed and developed to mimic naturally occurring antimicrobial peptides in both physicochemical composition and mechanism of action. These antimicrobial peptide mimetic polymers have been extensively investigated using chemical, biophysical, microbiological, and computational approaches to gain a deeper understanding of the molecular interactions that drive function. These studies have helped inform SARs, mechanism of action, and general physicochemical factors that influence the activity and properties of antimicrobial polymers. However, there are still lingering questions in this field regarding 3D structural patterning, bioavailability, and applicability to alternative targets. In this review, we present a perspective on the development and characterization of several antimicrobial polymers and discuss novel applications of these molecules emerging in the field. This article is categorized under:Therapeutic Approaches and Drug Discovery > Emerging TechnologiesTherapeutic Approaches and Drug Discovery > Nanomedicine for Infectious Disease