Exploitation of Antibiotic Resistance as a Novel Drug Target: Development of a β-Lactamase-Activated Antibacterial Prodrug
- J Med Chem. 2019 May 9;62(9):4411-4425. doi: 10.1021/acs.jmedchem.8b01923.
- 1. MRC Centre for Molecular Bacteriology and Infection , Imperial College London , SW7 2AZ London , United Kingdom.
- 2. Department of Chemistry, Molecular Sciences Research Hub , Imperial College London , W12 0BZ London , United Kingdom.
- 3. Department of Medicine , Imperial College London , SW7 2AZ London , United Kingdom.
- 4. School of Cellular and Molecular Medicine , University of Bristol , Biomedical Sciences Building, University Walk , BS8 1TD Bristol , United Kingdom.
Expression of β-lactamase is the single most prevalent determinant of Antibiotic resistance, rendering bacteria resistant to β-lactam Antibiotics. In this article, we describe the development of an Antibiotic prodrug that combines ciprofloxacin with a β-lactamase-cleavable motif. The prodrug is only bactericidal after activation by β-lactamase. Bactericidal activity comparable to ciprofloxacin is demonstrated against clinically relevant E. coli isolates expressing diverse β-lactamases; bactericidal activity was not observed in strains without β-lactamase. These findings demonstrate that it is possible to exploit Antibiotic resistance to selectively target β-lactamase-producing bacteria using our prodrug approach, without adversely affecting bacteria that do not produce β-lactamase. This paves the way for selective targeting of drug-resistant pathogens without disrupting or selecting for resistance within the microbiota, reducing the rate of secondary infections and subsequent Antibiotic use.