Harnessing from Nature - Evolving Potential of Antimicrobial Peptide.

Abstract

Antimicrobial peptides (AMPs) are recognized as one of the most ancient components of innate immunity, playing a pivotal role as the first line of host defense systems. These evolutionarily conserved molecules have been identified in various organisms, from prokaryotes to humans. AMPs establish a delicate balanced relationship between host and microbes, by simultaneously regulating the biological activities of pathogens and commensal microbes. Given the escalating global concern over antibiotic resistance, there is an urgent need to explore alternative strategies to combat challenging infectious diseases. AMPs have emerged as promising candidates employed in clinical practice due to their sustainable bactericidal properties. Witnessed by deep understanding of AMPs actions toward host and bacteria, the potential applications of AMPs extend far beyond infection control. Emerging developments harnessed natural capabilities of AMPs to optimize their roles in modulating host signaling, treating diverse diseases, advancing biosensing and bioimaging technologies. In this Concept paper, we provide a comprehensive overview of the diversity and properties of AMPs. Additionally, we elaborate on the mechanisms underlying AMP activity and bacterial responses counteracting AMP's functions. Most importantly, we discuss potential biomedical applications of AMPs and offer perspectives on their future development.