Bacteriophage Therapy to Combat Microbial Infections and Antimicrobial Resistance.

Abstract

Antimicrobial resistance (AMR) is a global issue; however, in lower resource settings, uncontrolled measures and uncontrolled use of antibiotics in human, animal, and agricultural practices have increased their prevalence in developing countries. Various mechanisms have been implicated to explain the AMR, like the circulation of the plasmid carrying antibiotic resistance genes (ARG), mutation in target genes (intrinsic and plasmid), overexpression of efflux pumps, underexpression of porins, etc. Various therapeutic strategies used to combat AMR exist, such as nonantibiotic approaches (vaccinations or immunotherapy, nano-derived treatments, and bacteriophage therapy), Anti-plasmid and plasmid curing approaches, combinatorial approaches (combination of antibiotics as well as a combination of two different approaches), and plant-based therapeutics. In this focused review, we have discussed the potential use of bacteriophage-based therapy to combat AMR and biofilm formation through multifaceted ways, including lysis of the drug-resistant bacteria, targeting the pili of AMR plasmids conjugation systems, and use of phage-derived lytic proteins. Phages can also be used to decontaminate surfaces in healthcare settings, prevent bacterial contamination in food (meat and dairy), and control bacterial populations in environmental settings, such as water and soil. Therefore, the bacteriophages-based approach served as a dual sword and could not only prevent the spread of infectious diseases but also manage the AMR.