Characteristics of Environmental and Bacteriophages and Their Therapeutic Applications.

In recent years, multidrug-resistant (MDR) strains of have spread globally, being responsible for the occurrence and severity of nosocomial infections. The NDM-1-kp, VIM-1 carbapenemase-producing isolates as well as extended-spectrum beta lactamase-producing (ESBL) isolates along with strains have become emerging pathogens. Due to the growing problem of antibiotic resistance, bacteriophage therapy may be a potential alternative to combat such multidrug-resistant strains.

Do Anti-Phage Antibodies Persist after Phage Therapy? A Preliminary Report.

Phages are immunogenic and may evoke an immune response following their administration. Consequently, patients undergoing phage therapy (PT) produce phage-neutralizing serum antibodies. The clinical significance of this phenomenon for the success or failure of the therapy is currently unclear.

Bacteriophages and antibiotic interactions in clinical practice: what we have learned so far.

Bacteriophages (phages) may be used as an alternative to antibiotic therapy for combating infections caused by multidrug-resistant bacteria. In the last decades, there have been studies concerning the use of phages and antibiotics separately or in combination both in animal models as well as in humans. The phenomenon of phage-antibiotic synergy, in which antibiotics may induce the production of phages by bacterial hosts has been observed.

Potential for Phages in the Treatment of Bacterial Sexually Transmitted Infections.

Bacterial sexually transmitted infections (BSTIs) are becoming increasingly significant with the approach of a post-antibiotic era. While treatment options dwindle, the transmission of many notable BSTIs, including , , and continues to increase. Bacteriophage therapy has been utilized in Poland, Russia and Georgia in the treatment of bacterial illnesses, but not in the treatment of bacterial sexually transmitted infections.

Anti-biofilm activity of bacteriophages and lysins in chronic rhinosinusitis.

Chronic rhinosinusitis (CRS) is an otolaryngological disease with a recalcitrant nature, predominantly due to antibiotic resistant bacteria and the biofilm formation. The intracellular residency of Staphylococcus aureus bacteria was observed in CRS. The overall prevalence of CRS is estimated between 5-15% in the human population, and biofilms were formed in sinuses in 40-80% of cases.

Low Immunogenicity of Intravesical Phage Therapy for Urogenitary Tract Infections.

Patients with chronic urinary and urogenital multidrug resistant bacterial infections received phage therapy (PT) using intravesical or intravesical and intravaginal phage administration. A single course of PT did not induce significant serum antibody responses against administered phage. Whilst the second cycle of PT caused a significant increase in antibody levels, they nevertheless remained quite low.

The Presence of Bacteriophages in the Human Body: Good, Bad or Neutral?

The presence of bacteriophages (phages) in the human body may impact bacterial microbiota and modulate immunity. The role of phages in human microbiome studies and diseases is poorly understood. However, the correlation between a greater abundance of phages in the gut in ulcerative colitis and diabetes has been suggested.

Anti-phage serum antibody responses and the outcome of phage therapy.

We examined the appearance of serum anti-phage antibodies in 25 patients with chronic sinusitis treated with phage therapy (PT). Approximately 30% of patients with weak antibody responses responded positively to PT, which was similar to the results of treatment achieved in a group of patients with high antibody production. In addition, there was no correlation between antibody level and the outcome of PT.

Phage Therapy in Poland - a Centennial Journey to the First Ethically Approved Treatment Facility in Europe.

Although phage discovery is an unquestionable merit of the English bacteriologist Frederick W. Twort and the Canadian-French microbiologist Félix d'Hérelle, who both discovered phages over 100 years ago, the Polish history of phage studies also dates back to those years. In contrast to the Western world, developing phage treatment in Poland has never been abandoned despite the country's tense history marked by the Second World War (WWII) and the communism era.

Bacteriophages and Lysins in Biofilm Control.

To formulate the optimal strategy of combatting bacterial biofilms, in this review we update current knowledge on the growing problem of biofilm formation and its resistance to antibiotics which has spurred the search for new strategies to deal with this complication. Based on recent findings, the role of bacteriophages in the prevention and elimination of biofilm-related infections has been emphasized. In vitro, ex vivo and in vivo biofilm treatment models with single bacteriophages or phage cocktails have been compared.

Phage Therapy in Prostatitis: Recent Prospects.

Prostatitis has various etiology including bacterial infection and dysregulated immunity; some of its forms remain a serious therapeutic challenge. Inflammation occurs in all forms of this disorder and is proposed to predispose to the development of prostate cancer (PC). There are reports that phage therapy is effective in chronic bacterial prostatitis.

Phage Therapy: Beyond Antibacterial Action.

Until recently, phages were considered as mere "bacteria eaters" with potential for use in combating antimicrobial resistance. The real value of phage therapy assessed according to the standards of evidence-based medicine awaits confirmation by clinical trials. However, the progress in research on phage biology has shed more light on the significance of phages.

Phage Therapy: What Have We Learned?

In this article we explain how current events in the field of phage therapy may positively influence its future development. We discuss the shift in position of the authorities, academia, media, non-governmental organizations, regulatory agencies, patients, and doctors which could enable further advances in the research and application of the therapy. In addition, we discuss methods to obtain optimal phage preparations and suggest the potential of novel applications of phage therapy extending beyond its anti-bacterial action.

Phage therapy in allergic disorders?

Allergic disorders pose a growing challenge to medicine and our society. Therefore, novel approaches to prevention and therapy are needed. Recent progress in studies on bacterial viruses (phages) has provided new data indicating that they have significant immunomodulating activities.

The Potential of Phage Therapy in Sepsis.

Sepsis remains a difficult clinical challenge, since our understanding of its immunopathology is incomplete and no efficacious treatment currently exists. Its earlier stage results from an uncontrolled inflammatory response to bacteria while in the later stage disturbed immune response with immunodeficiency syndrome develops. More than a hundred of clinical trials have not provided an efficient therapy which could ascertain an improvement or cure.

Therapeutic potential of phages in autoimmune liver diseases.

Autoimmune liver disease (ALD) poses a difficult medical challenge, as there is a significant number of patients in whom current therapy offers questionable or no benefit, yet its side effects may be serious, including the development of malignancy. Bacterial viruses (phages) have been recognized increasingly as immunomodulators contributing to immune homeostasis and curbing inflammation. Accumulating data suggest that phages may be useful in immunotherapy of ALD.

Bacteriophages targeting intestinal epithelial cells: a potential novel form of immunotherapy.

In addition to their established role as a physical barrier to invading pathogens and other harmful agents, intestinal epithelial cells (IEC) are actively involved in local immune reactions. In the past years, evidence has accumulated suggesting the role of IEC in the immunopathology of intestinal inflammatory disorders (IBD). Recent advances in research on bacteriophages strongly suggest that-in addition to their established antibacterial activity-they have immunomodulating properties that are potentially useful in the clinic.

Bacteriophages in the gastrointestinal tract and their implications.

The gut microbiota plays an essential role in health and disease of humans. Bacteriophages are the most abundant members of the gut virobiota and display great diversity. Phages can translocate through the mucosa to lymph and internal organs and play a role as regulators of the bacterial population in the gut.

Phage-Phagocyte Interactions and Their Implications for Phage Application as Therapeutics.

Phagocytes are the main component of innate immunity. They remove pathogens and particles from organisms using their bactericidal tools in the form of both reactive oxygen species and degrading enzymes-contained in granules-that are potentially toxic proteins. Therefore, it is important to investigate the possible interactions between phages and immune cells and avoid any phage side effects on them.

Phages and immunomodulation.

In the past years, the microbiome and its role in the pathophysiology of diseases have gained great interest. The progress of our knowledge in this field opens completely novel prospects for treating disorders, including those which are most challenging to medicine today. Of special interest are studies on the interactions of the microbiome with the immune system.

Corrigendum: Bacteriophage Procurement for Therapeutic Purposes.

[This corrects the article on p. 1177 in vol. 7, PMID: 27570518.

Antibody Production in Response to Staphylococcal MS-1 Phage Cocktail in Patients Undergoing Phage Therapy.

In this study, we investigated the humoral immune response (through the release of IgG, IgA, and IgM antiphage antibodies) to a staphylococcal phage cocktail in patients undergoing experimental phage therapy at the Phage Therapy Unit, Medical Center of the Ludwik Hirszfeld Institute of Immunology and Experimental Therapy in Wrocław, Poland. We also evaluated whether occurring antiphage antibodies had neutralizing properties toward applied phages (K rate). Among 20 examined patients receiving the MS-1 phage cocktail orally and/or locally, the majority did not show a noticeably higher level of antiphage antibodies in their sera during phage administration.

Antiphage activity of sera during phage therapy in relation to its outcome.

Aim: The aim was to study the association between the phage neutralization of patients' sera and the clinical outcome of phage therapy (PT).

Patients: About 62 patients with various bacterial infections receiving PT as well as 30 healthy volunteers were studied.

Materials & Methods: Antiphage activity of sera (AAS) was examined using the phage neutralization test of different types of phages before and during PT in relation to the route of phage administration and correlated with the results of PT.

Bacteriophage Procurement for Therapeutic Purposes.

Bacteriophages (phages), discovered 100 years ago, are able to infect and destroy only bacterial cells. In the current crisis of antibiotic efficacy, phage therapy is considered as a supplementary or even alternative therapeutic approach. Evolution of multidrug-resistant and pandrug-resistant bacterial strains poses a real threat, so it is extremely important to have the possibility to isolate new phages for therapeutic purposes.

The Effect of Bacteriophage Preparations on Intracellular Killing of Bacteria by Phagocytes.

Intracellular killing of bacteria is one of the fundamental mechanisms against invading pathogens. Impaired intracellular killing of bacteria by phagocytes may be the reason of chronic infections and may be caused by antibiotics or substances that can be produced by some bacteria. Therefore, it was of great practical importance to examine whether phage preparations may influence the process of phagocyte intracellular killing of bacteria.