Abstract
Antibiotic resistance is becoming the biggest current threat to global health. At the same time, phage therapy is witnessing a return of interest. The therapeutic use of bacteriophages, that infect and kill bacteria, is well suited to be a good strategy to combat antibiotic resistance. Furthermore, bacteriophages are increasingly used in combination with standard antibiotics against the drug-resistant pathogens. Interestingly, we found that the engineered mycobacteriophage phAE159 and natural phage D29 can not infect the Mycobacterium tuberculosis in the presence of kanamycin, hygromycin or streptomycin, but there is no effect on the phage infection in the presence of spectinomycin. Based on a series of studies and structural analysis of the above four aminoglycoside antibiotics, we can speculate as to the mechanism by which amino sugar group of aminoglycoside was able to selectively inhibit mycobacteriophage DNA replication. This is a rare discovery that broad-spectrum antibiotics inhibit phage infection. We envisioned that this study will provide guidance for people to combine phage and antibiotics to treat M. tuberculosis.
Competing Interest Statement
The authors have declared no competing interest.