Romuald Gryko scite author profile

The ability of microbes to form biofilms is an important element of their pathogenicity, and biofilm formation is a serious challenge for today's medicine. Fighting the clinical complications associated with biofilm formation is very difficult and linked to a high risk of failure, especially in a time of increasing bacterial resistance to antibiotics. Bacterial species most commonly isolated from biofilms include coagulase-negative staphylococci, Staphylococcus aureus, Enterococcus faecalis, Enterococcus faecium, Escherichia coli, Proteus mirabilis, Klebsiella pneumoniae, Pseudomonas aeruginosa and Acinetobacter spp. The frequent failure of antibiotic therapy led researchers to look for alternative methods and experiment with the use of antibacterial factors with a mechanism of action different from that of antibiotics. Experimental studies with bacteriophages and mixtures thereof, expressing lytic properties against numerous biofilm-forming bacterial species showed that bacteriophages may both prevent biofilm formation and contribute to eradication of biofilm bacteria. A specific role is played here by phage depolymerases, which facilitate the degradation of extracellular polymeric substances (EPS) and thus the permeation of bacteriophages into deeper biofilm layers and lysis of the susceptible bacterial cells. Much hope is placed in genetic modifications of bacteriophages that would allow the equipping bacteriophages with the function of depolymerase synthesis. The use of phage cocktails prevents the development of phage-resistant bacteria.

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Characterization of a bacteriophage, isolated from a cow with mastitis, that is lytic against Staphylococcus aureus strains

Kwiatek

Parasion

Mizak

et al. 2011

Arch Virol

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Methicillin-resistant strains of Staphylococcus aureus (MRSA) are now the most commonly reported antibiotic-resistant bacterium in clinical settings. Therefore, there is an urgent need to develop novel antibacterial agents to control this pathogen. Bacteriophage therapy is a potential alternative treatment for MRSA infections. The objective of this study was characterization of a novel virulent bacteriophage (MSA6) isolated from a cow with mastitis. Electron microscopy showed its resemblance to members of the family Myoviridae, with an isometric head (66 nm) and a long contractile tail (173 nm). The genome of phage MSA6 was tested by pulsed-field gel electrophoresis and estimated to be about 143 kb. It exhibited rapid adsorption (>82% in 5 min), a short latent period (15 min) and a relatively small burst size (23 PFU/cell). Isolated phage was capable of infecting a wide spectrum of staphylococcal strains of both human and bovine origin. The results of this investigation indicate that MSA6 is similar to other bacteriophages belonging to the family Myoviridae (Twort, K, G1, 812) that have been successfully used in bacteriophage therapy.

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Bacteriophages and bacteriophage-derived endolysins as potential therapeutics to combat Gram-positive spore forming bacteria

2015

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Summary Since their discovery in 1915, bacteriophages have been routinely used within Eastern Europe to treat a variety of bacterial infections. Although initially ignored by the West due to the success of antibiotics, increasing levels and diversity of antibiotic resistance is driving a renaissance for bacteriophage‐derived therapy, which is in part due to the highly specific nature of bacteriophages as well as their relative abundance. This review focuses on the bacteriophages and derived lysins of relevant Gram‐positive spore formers within the Bacillus cereus group and Clostridium genus that could have applications within the medical, food and environmental sectors.

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Isolation of bacteriophages and their application to control Pseudomonas aeruginosa in planktonic and biofilm models

Kwiatek

Parasion

Rutyna

et al. 2017

Research in Microbiology

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Bacteriophages, phage endolysins and antimicrobial peptides – the possibilities for their common use to combat infections and in the design of new drugs

Mirski¹,

Mizak²,

Nakonieczna

et al. 2019

Ann Agric Environ Med.

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The antibiotic resistance in many pathogenic bacteria has become a major clinical problem, therefore, the necessity arises to search for new therapeutic strategies. The most promising solution lies in bacteriophages, phage endolysins and antimicrobial peptides. The aim of this study is to review the possibilities for the common use of bacteriophages, phage endolysins and antimicrobial peptides, both in the form of combined therapies and new strategies for the production of peptide drugs. Bacteriophages are viruses that specifically infect and destroy pathogenic bacteria by penetration into bacterial cells, causing metabolism disorders and, consequently, cell lysis. Phage-encoded endolysins are bacteriolytic proteins produced at the end of the phage lytic cycle that destroy elements of bacterial cell wall and enable the release of phage progeny from host cells. Antimicrobial peptides (AMPs) constitute an element of the innate immunity of living organisms and are characterized by the activity against a broad spectrum of bacteria. In the literature, there are only a few reports on the direct interaction of bacteriophages, phage endolysins and antimicrobial peptides against pathogenic bacteria. In each of them, a synergistic effect was observed, and Phage-encoded antimicrobial peptides as a specific group of AMPs have were also discussed. Phage-display technique was also reviewed in terms of its applications to produce and deliver biologically active peptides. The literature data also suggest that bacteriophages, phage endolysins and antimicrobial peptides can be used in combined therapy, thus negating many of the limitations resulting from their specificity as a single antimicrobial agent.

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Romuald Gryko

Bacteriophages as an Alternative Strategy for Fighting Biofilm Development

Characterization of a bacteriophage, isolated from a cow with mastitis, that is lytic against Staphylococcus aureus strains

Bacteriophages and bacteriophage-derived endolysins as potential therapeutics to combat Gram-positive spore forming bacteria

Isolation of bacteriophages and their application to control Pseudomonas aeruginosa in planktonic and biofilm models

Bacteriophages, phage endolysins and antimicrobial peptides – the possibilities for their common use to combat infections and in the design of new drugs

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