RESUMO
The emergence and spread of multidrug resistant (MDR) pathogens with acquired resistance to almost all available antimicrobial agents has severely threatened the international healthcare community over the last two decades. The last resort antibiotic vancomycin is critical for treatment of several of these pathogens; howeverc vancomycin resistance is spreading due to the undesired accumulation of IV vancomycin in the colon post-treatment. This accumulation exerts selective pressure upon members of the colonic microflora, including Enterococci, which possess vancomycin resistance genes. To ensure the continual effectiveness of vancomycin in the clinical setting by preventing the spread of antibiotic resistance, it is crucial to develop strategies that reduce selective pressure on the colonic microflora while allowing vancomycin to maintain its desired activity at the site of infection. Herein we report that modification of the native l-Lys-d-Ala-d-Ala vancomycin binding site can be used to produce peptides with the ability to competitively bind vancomycin, reducing its activity against susceptible Enterococci. Moreover, several modifications to the N-termini of the native tripeptide have produced compounds with enhanced vancomycin binding activity, including several analogs that were designed to covalently bind vancomycin, thereby acting as suicide inhibitors. Finally, in a mixed culture of susceptible and resistant bacteria, a single lead compound was found to protect high ratios of susceptible bacteria from vancomycin over the course of a week-long period, preventing the selection for vancomycin-resistant Enterococci. These findings demonstrate the ability of these peptides as potential therapeutic adjuvants for counteracting the undesired accumulation of colonic vancomycin, allowing for protection of the colonic microflora.