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. We show how those activities could be translated into beneficial effects in allergic disorders and present initial clinical data that support this hope. Impact statement Allergic disorders pose a growing challenge to medicine and our society, so new approaches to prevention and therapy are urgently needed. Our article summarizes progress that has been recently made and presents a shift in our understanding of the immunobiological significance of bacterial viruses (phages). Currently, phages may be considered not only as mere "bacteria eaters" but also as regulators of immunity. The new understanding of phages as important factors in maintenance of immune homeostasis opens completely new perspectives for their use in controlling aberrant immune responses. It is likely that this new knowledge could be translated into novel means of immunotherapy of allergic disorders.

Phage as a modulator of immune responses: practical implications for phage therapy.

Although the natural hosts for bacteriophages are bacteria, a growing body of data shows that phages can also interact with some populations of mammalian cells, especially with cells of the immune system. In general, these interactions include two main aspects. The first is the phage immunogenicity, that is, the capacity of phages to induce specific immune responses, in particular the generation of specific antibodies against phage antigens. The other aspect includes the immunomodulatory activity of phages, that is, the nonspecific effects of phages on different functions of major populations of immune cells involved in both innate and adaptive immune responses. These functions include, among others, phagocytosis and the respiratory burst of phagocytic cells, the production of cytokines, and the generation of antibodies against nonphage antigens. The aim of this chapter is to discuss the interactions between phages and cells of the immune system, along with their implications for phage therapy. These topics are presented based on the results of experimental studies and unique data on immunomodulatory effects found in patients with bacterial infections treated with phage preparations.

Clinical aspects of phage therapy.

Phage therapy (PT) is a unique method of treatment of bacterial infections using bacteriophages (phages)-viruses that specifically kill bacteria, including their antibiotic-resistant strains. Over the last decade a marked increase in interest in the therapeutic use of phages has been observed, which has resulted from a substantial rise in the prevalence of antibiotic resistance of bacteria, coupled with an inadequate number of new antibiotics. The first, and so far the only, center of PT in the European Union is the Phage Therapy Unit (PTU) established at the Ludwik Hirszfeld Institute of Immunology and Experimental Therapy, Wroclaw, Poland in 2005. This center continues the rich tradition of PT in Poland, which dates from the early 1920s. The main objective of this chapter is to present a detailed retrospective analysis of the results of PT of 153 patients with a wide range of infections resistant to antibiotic therapy admitted for treatment at the PTU between January 2008 and December 2010. Analysis includes the evaluation of both the efficacy and the safety of PT. In general, data suggest that PT can provide good clinical results in a significant cohort of patients with otherwise untreatable chronic bacterial infections and is essentially well tolerated. In addition, the whole complex procedure employed to obtain and characterize therapeutic phage preparations, as well as ethical aspects of PT, is discussed.

Potential of bacteriophages and their lysins in the treatment of MRSA: current status and future perspectives.

Bacteriophages (phages) are viruses that specifically infect and kill bacteria. Lysins are enzymes of bacteriophage origin that cleave covalent bonds in peptidoglycan, thereby inducing rapid lysis of a bacterial cell. As potential antibacterial agents, phages and lysins have some important features in common, especially the capacity to kill antibiotic-resistant bacteria, a narrow antibacterial range, and lack of toxic effects on mammalian cells. In this article we present the staphylococcal phages and their lysins that can be used to combat methicillin-resistant Staphylococcus aureus (MRSA), one of today's most dangerous pathogens. We also discuss the use of phages as vectors specifically delivering different antibacterial agents to bacterial cells. Experimental data show that both phages and lysins could be effective in the treatment of MRSA.

The potential of phage therapy in bacterial infections of the eye.

Antibiotic resistance has become a major health challenge which poses a significant threat, also in ophthalmology. For example, methicillin-resistant Staphylococcus aureus may cause dramatic complications, including bilateral blindness as a consequence of orbital cellulitis and panophthalmitis. This menace has provoked a greatly revived interest in phage therapy. In recent years, a number of papers have been published suggesting its efficacy in animal and human bacterial infections, but none of them addressed the phage potential in ophthalmology, which is the subject of this mini review.