Applications of bacteriophages against intracellular bacteria.

Infectious diseases pose a significant threat to both human and animal populations. Intracellular bacteria are a group of pathogens that invade and survive within the interior of eukaryotic cells, which in turn protect them from antibacterial drugs and the host immune system. Limited penetration of antibacterials into host cells results in insufficient bacterial clearance and treatment failure. Bacteriophages have, over the decades, been proved to play an important role in combating bacterial infections (phage therapy), making them an important alternative to classical antibiotic strategies today. Phages have been found to be effective at killing various species of extracellular bacteria, but little is still known about how phages control intracellular infections. With advances in phage genomics and mechanisms of delivery and cell uptake, the development of phage-based antibacterial strategies to address the treatment of intracellular bacteria has general potential. In this review, we present the current state of knowledge regarding the application of bacteriophages against intracellular bacteria. We cover phage deployment against the most common intracellular pathogens with special attention to therapeutic and preventive strategies.

Bacteriophage amplification - A comparison of selected methods.

The bactericidal properties of bacteriophages have been used almost since the moment of the discovery of bacterial viruses. In the light of the rapidly growing number of antibiotic-resistant bacteria, phage therapy is considered one of the most promising alternatives to classical treatment. Phage amplification is one of the most common procedures of working with phages, and high-titer preparations are beneficial at the experimental stage of studies as well as in practice. The objective of this study was to compare five commonly applied methods of phage amplification: (i) pooled plaques method, (ii) the plate wash method, (iii) the agar culture method, (iv) the two-stage culture method, and (v) in liquid culture. All methods were tested for fifteen different phages. The results described herein indicate that there is no optimal, universal method for phage amplification, and the most effective method has to be established individually for each phage.