Abstract
The escalating antibiotic resistance crisis poses a major global health threat. Bacteriophage therapy offers a promising alternative for combating multidrug-resistant infections. However, bacterial resistance to phages remains a significant hurdle. Innovative strategies are needed to overcome this challenge. In this study, we developed a phage cocktail based on our phage library, consisting of three phages that suppressed phage resistance of carbapenem-resistant hypervirulent Klebsiella pneumoniae (CR-hvKp). This cocktail capitalized on dual instances of collateral sensitivity, thereby constraining the evolution of phage resistance. The first-layered collateral sensitivity arose from overlapping coverage between capsular polysaccharide (CPS) and lipopolysaccharide (LPS), rendering the bacteria resistant to CPS-binding phages but more susceptible to LPS-binding phages. The second-layered collateral sensitivity resulted from an O serotype switch (from O1 to O2), causing resistance to O1 antigen-binding phages but increasing susceptibility to phages that target the O2 antigen. This dual-layered collateral sensitivity phage cocktail effectively mitigated infection caused by CR-hvKp in mice. Our research highlights the importance of the collateral sensitivity mechanism in counteracting the evolution of phage resistance and offers a sophisticated strategy for configuring phage cocktails to eliminate bacterial resistance.