崔 龍洙

<jats:title>Abstract</jats:title> <jats:p>Phage therapy has emerged as a promising alternative to conventional antimicrobial therapy for antimicrobial-resistant bacterial infections, but concerns about uncontrolled phage proliferation have limited its use. To address this issue, we established a non-proliferative phage-based DNA delivery system, called bacteria-targeting capsid particle (B-CAP), for the development of antimicrobial agents which effectively prevented phage spread while maintaining bactericidal activity. B-CAP is principally a T7 phage capsids packaged with a partial T7 phage genome, giving it the allowance to accommodate large foreign DNA up to 18 kb in length. We confirmed the efficacy of B-CAP in targeting and injecting its genome into bacteria, analogous to the wild-type phage. To demonstrate proof-of-concept and potential for developing an antimicrobial agent, we loaded colicin E1 operon onto the B-CAP system, resulting in the construction of B-CAP_ColE1, an antimicrobial agent capable of boosting colicin E1-based bacterial killing against E. coli. Although no therapeutic effect was observed for B-CAP, B-CAP_ColE1 exhibited strong bactericidal activity against carbapenem-resistant E. coli both in vitro and in vivo, and significantly improved the survival of mice in an infection mouse model experiment. Finally, B-CAP_ColE1 is biologically contained or inert, reducing potential biological hazards during therapeutic use. Our results demonstrate that the B-CAP system offers a new strategy for developing non-replicative phage-based antimicrobial agents against bacterial infections.</jats:p>