Abstract
The rise of antibiotic resistance poses a global problem. To avoid this, alternative therapeutic options should be explored, e.g. lytic bacteriophage therapy. Well-designed and described research on effectivity of oral bacteriophage therapy is lacking, therefore the aim of this study was to determine whether the in vitro model of the colon (TIM-2) could be used to investigate the survival and efficacy of therapeutic bacteriophages. For this, an antibiotic-resistant (CmR) E. coli DH5α(pGK11) was used in combination with a corresponding bacteriophage. For the survival study, the TIM-2 model was inoculated with the microbiota of healthy individuals and a standard feeding (SIEM) was fed over the course of the 72 h experiment. To test the bacteriophage, different interventions were carried out. Survival of bacteriophages and bacteria was followed by plating of the lumen samples at different time points 0, 2, 4, 8, 24, 48, and 72 h. In addition, the stability of the bacterial community was determined with the use of 16S rRNA sequencing. Results showed that the phage titers could be decreased by activity from the commensal microbiota. Levels of the phage host (here E.coli) were decreased in the interventions with the phage shot. Multiple shots did not seem to be more effective than a single shot. At the same time, the bacterial community was not disturbed and remained stable throughout the experiment, which is in stark contrast to treatment with antibiotics. Mechanistic studies such as this one are required to optimize efficacy of phage therapy.
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