Enterococcus faecalis, a conditional pathogenic bacterium, is prevalent in the intestinal, oral, and reproductive tracts of humans and animals, causing a variety of infectious diseases. E. faecalis is the main species detected in secondary persistent infection from root canal therapy failure. Due to the abuse of antibacterial agents, E. faecalis has evolved its resistant ability. Therefore, it is difficult to treat clinical diseases infected by E. faecalis. Exploring new alternative drugs for treating E. faecalis infection is urgent. We cloned and expressed the gene of phage holin, purified the recombinant protein, and analyzed the antibacterial activity, lysis profile, and ability to remove bacterial biofilm. It showed that the crude enzyme of phage holin pEF191 exhibited superior bacterial inhibiting activity and a broader lysis host range compared to the parent phage PEf771. In addition, pEF191 demonstrated high efficacy in eliminating E. faecalis biofilm. The therapeutic results of the Sprague-Dawley (SD) rats model infected showed that pEf191 did not affect SD rats, indicating that pEF191 provided greater protection against E. faecalis infection in SD rats. Based on the 16 S rDNA data of SD rats intestinal microorganism population, holin pEF191 exhibited no impact on the diversity of intestinal microorganisms at the phylum and genus levels and improved the relative abundance of favorable bacteria. Thus, pEF191 may serve as a promising alternative to antibiotics in the management of E. faecalis infection.
Keywords: Biofilm; Enterococcus faecalis; Holin; Phage; Population.
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