RESUMO
Drug-resistant Gram-negative bacterial pathogens are an increasingly serious health threat causing worldwide nosocomial infections with high morbidity and mortality. Of these, the most prevalent and severe are Pseudomonas aeruginosa, Klebsiella pneumoniae, Escherichia coli, Acinetobacter baumannii, and Salmonella typhimurium. The extended use of antibiotics has led to the emergence of multidrug resistance in these bacteria. Drug-inactivating enzymes produced by these bacteria, as well as other resistance mechanisms, render drugs ineffective and make treatment of such infections more difficult and complicated. This makes the development of novel antimicrobial agents an urgent necessity. Bacteriophages, which are bacteria-killing viruses first discovered in 1915, have been used as therapeutic antimicrobials in the past, but their use was abandoned due to the widespread availability of antibiotics in the 20th century. The emergence, however, of drug-resistant pathogens has re-affirmed the need for bacteriophages as therapeutic strategies. This review describes the use of bacteriophages as novel agents to combat this rapidly emerging public health crisis by comprehensively enumerating and discussing the innovative use of bacteriophages in both animal models and in patients infected by Gram-negative bacteria.
RESUMO
Antimicrobial resistance in pathogenic bacteria is increasing worldwide. One solution to this crisis is bacteriophage therapy, a treatment that harnesses naturally occurring bacterial viruses to invade and lyse antimicrobial resistant bacterial hosts. In Gram-negative hosts, a by-product of bacteriophage production is bacterial endotoxin, which can cause serious immune reactions in vivo. Purification methods using organic solvent extraction can remove endotoxin in bacteriophage lysates. In this study, we investigate a method for removal of endotoxin from 16 high-titer Klebsiella pneumoniae lysates by extraction with 1-dodecanol, 1-octanol, dodecane, or decane. In these experiments, treatment with either 1-dodecanol or 1-octanol resulted in removal of 104-105 endotoxin units/mL. Recovery of bacteriophage in lysates treated with dodecanol without dialysis was >90%, and residual dodecanol was low (10-1500 ppm). Overall these results suggest that organic solvent extraction using 1-dodecanol is effective at removing bacterial endotoxin, maintaining bacteriophage titer, and reducing solvent contamination in 16 K. pneumoniae bacteriophage lysates.
RESUMO
Bacteriophage Magnus infects Klebsiella pneumoniae, a Gram-negative pathogen whose multidrug-resistant strains are a public health issue. Here, we describe the annotation of the 157,741-bp Magnus genome and its similarity to other myophages.