Therapeutic and prophylactic applications of bacteriophage components in modern medicine.

As the interactions of phage with mammalian innate and adaptive immune systems are better delineated and with our ability to recognize and eliminate toxins and other potentially harmful phage gene products, the potential of phage therapies is now being realized. Early efforts to use phage therapeutically were hampered by inadequate phage purification and limited knowledge of phage-bacterial and phage-human relations. However, although use of phage as an antibacterial therapy in countries that require controlled clinical studies has been hampered by the high costs of patient trials, their use as vaccines and the use of phage components such as lysolytic enzymes or lysozymes has progressed to the point of commercial applications.

Is sporadic Alzheimer's disease associated with diphtheria toxin?

The two major aspects of Alzheimer's disease (AD) that must be considered in a search for causative agents are its association with aging and its widespread epidemiology. While a number of agents have been identified, additional factors may play a role. An association with diphtheria toxin was suggested by observations that vaccinations may provide protective effects, and the observation that decreased proteins synthesis in cortical regions from AD patients is associated with modification of elongation factor 2, the target of diphtheria toxin.

High-sensitivity bacterial detection using biotin-tagged phage and quantum-dot nanocomplexes.

With current concerns of antibiotic-resistant bacteria and biodefense, it has become important to rapidly identify infectious bacteria. Traditional technologies involving isolation and amplification of the pathogenic bacteria are time-consuming. We report a rapid and simple method that combines in vivo biotinylation of engineered host-specific bacteriophage and conjugation of the phage to streptavidin-coated quantum dots.