Bacteriophages (or phages) are viruses of bacteria, consisting of nucleic acid packaged within a protein coat. In eukaryotic hosts, phages are unable to replicate and in the absence of a suitable prokaryotic host, behave as inert particulate antigens. In recent years, work has shown that whole phage particles can be used to deliver vaccines in the form of immunogenic peptides attached to modified phage coat proteins or as delivery vehicles for DNA vaccines, by incorporating a eukaryotic promoter-driven vaccine gene within their genome. While both approaches are promising by themselves, in future there is also the exciting possibility of creating a hybrid phage combining both components to create phage that are cheap, easy and rapid to produce and that deliver both protein and DNA vaccines via the oral route in the same construct.
Whole bacteriophage lambda particles, containing reporter genes under the control of the cytomegalovirus promoter (P(CMV)), have been used as delivery vehicles for nucleic acid immunisation. Following intramuscular injection of mice with lambda-gt11 containing the gene for hepatitis B surface antigen (HBsAg), anti-HBsAg responses in excess of 150 mIU ml(-1) were detected. When isolated peritoneal macrophages were incubated with whole lambda particles containing the gene for green fluorescent protein (GFP) under the control of P(CMV), GFP antigen was detected on the macrophage surface 8 h later. Results suggested that direct targeting of antigen-presenting cells by bacteriophage 'vaccines' may occur, leading to enhanced immune responses compared to naked DNA delivery. Bacteriophage DNA vaccines offer several advantages: they do not contain antibiotic resistance genes, they offer a large cloning capacity (approximately 15 kb), the DNA is protected from environmental degradation, they offer the potential for oral delivery, and large-scale production is cheap, easy and extremely rapid.
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