Comparative genomics of Acinetobacter baumannii and therapeutic bacteriophages from a patient undergoing phage therapy

Abstract

AbstractIn 2016, a 68-year-old patient with a disseminated multi-drug resistant Acinetobacter baumannii infection was treated using lytic bacteriophages in one of the first modern human clinical uses of phage therapy in the United States. Due to the emergency nature of the treatment there was little time to thoroughly characterize the phages used in this intervention or the pathogen itself. Here we report the genomes of the nine phages used for treatment and three strains of A. baumannii isolated prior to and during treatment. The eight phages used in the initial treatment were found to be a group of closely related T4-like myophages; the ninth phage, AbTP3Φ1, was found to be an unrelated Fri1-like podophage. Analysis of 19 A. baumannii isolates collected before and during phage treatment showed that resistance to the T4-like phages appeared as early as two days following the start of treatment. Three A. baumannii strains (TP1, TP2 and TP3) collected before and during treatment were sequenced to closure, and all contained a 3.9 Mb chromosome of sequence type 570 with a KL116 capsule locus and identical 8.7 kb plasmids. Phage-insensitive mutants of A. baumannii strain TP1 were generated in vitro and the majority of identified mutations were located in the bacterial capsule locus. The presence of the same mutation in both the in vitro mutants and in phage-insensitive isolates TP2 and TP3, which evolved in vivo during phage treatment, indicate that in vitro investigations can produce results that are relevant and predictive for the in vivo environment.