2 research outputs found
The efficacy of isolated bacteriophages from pig farms against ESBL/AmpC- producing Escherichia coli from pig and Turkey farms
Extended-spectrum β-lactamases (ESBLs) and AmpC β-lactamases are plasmid (but
also chromosomally) encoded enzymes found in Enterobacteriaceae, determining
resistance to a variety of important antibiotics including penicillins,
cephalosporins, and monobactams. In recent decades, the prevalence of ESBL
/AmpC-producing bacteria has increased rapidly across the world. Here, we
evaluate the potential use of bacteriophages in terms of a reduction of
antibiotic-resistant bacteria in healthy animals. The aim of our studies was
to isolate bacteriophages capable of destroying ESBL/AmpC-producing
Escherichia coli isolated from livestock habitats. The efficacy of isolated
phages against ESBL/AmpC E. coli strains varies, but creation of a phage
cocktail with broad activity spectrum is possible. This may indicate that the
role of phages may not be limited to phage therapy, but bacterial viruses may
also be applied against spread of bacteria with antibiotic resistance genes in
the environment. We also addressed the hypothesis, that phages, effective for
therapeutic purposes may be isolated from distant places and even from
different environments other than the actual location of the targeted
bacteria. This may be beneficial for practical purposes, as the construction
of effective phage preparations does not require access to disease outbreaks
The effect of bacteriophages T4 and HAP1 on in vitro melanoma migration
<p>Abstract</p> <p>Background</p> <p>The antibacterial activity of bacteriophages has been described rather well. However, knowledge about the direct interactions of bacteriophages with mammalian organisms and their other, i.e. non-antibacterial, activities in mammalian systems is quite scarce. It must be emphasised that bacteriophages are natural parasites of bacteria, which in turn are parasites or symbionts of mammals (including humans). Bacteriophages are constantly present in mammalian bodies and the environment in great amounts. On the other hand, the perspective of the possible use of bacteriophage preparations for antibacterial therapies in cancer patients generates a substantial need to investigate the effects of phages on cancer processes.</p> <p>Results</p> <p>In these studies the migration of human and mouse melanoma on fibronectin was inhibited by purified T4 and HAP1 bacteriophage preparations. The migration of human melanoma was also inhibited by the HAP1 phage preparation on matrigel. No response of either melanoma cell line to lipopolysaccharide was observed. Therefore the effect of the phage preparations cannot be attributed to lipopolysaccharide. No differences in the effects of T4 and HAP1 on melanoma migration were observed.</p> <p>Conclusion</p> <p>We believe that these observations are of importance for any further attempts to use bacteriophage preparations in antibacterial treatment. The risk of antibiotic-resistant hospital infections strongly affects cancer patients and these results suggest the possibility of beneficial phage treatment. We also believe that they will contribute to the general understanding of bacteriophage biology, as bacteriophages, extremely ubiquitous entities, are in permanent contact with human organisms.</p