Application of antimicrobial peptides as next-generation therapeutics in the biomedical world

Abstract

Antimicrobial peptide (AMP), also called host defense peptide, is a part of the innate immune system in eukaryotic organisms. AMPs are also produced by prokaryotes in response to stressful conditions and environmental changes. They have a broad spectrum of activity against both Gram positive and Gram negative bacteria. They are also effective against viruses, fungi, parasites, and cancer cells. AMPs are cationic or amphipathic in nature, but in recent years cationic AMPs have attracted a lot of attention because cationic AMPs can easily interact with negatively charged bacterial and cancer cell membranes through electrostatic interaction. AMPs can also eradicate bacterial biofilms and have broad-spectrum activity against multidrug resistant (MDR) bacteria. Although the main target site for AMPs is the cell membrane, they can also disrupt bacterial cell walls, interfere with protein folding and inhibit enzymatic activity. In recent centuries antibiotics are gradually losing their potential because of the continuous rise of antibiotic resistant bacteria. Therefore, there is an urgent need to develop novel therapeutic approaches to treat MDR bacteria, and AMP is such an alternative treatment option over conventional antibiotics. Several communicable diseases like tuberculosis and non-communicable diseases such as cancer can be treated by using AMPs. One of the major advantages of using AMP is that it works with high specificity and does not cause any harm to normal tissue. AMPs can be modified to improve their efficacy. In this narrative review, we are focusing on the potential application of AMPs in medical science.

Keywords: Antimicrobial peptides; anti-biofilm agent; diseases; therapeutic agents.