Poster Presentation 11th Annual Conference of the International Chemical Biology Society 2022

The role of adjuvants in overcoming antibacterial resistance due to enzymatic drug modification (#122)

Christy El-Khoury 1 , Elissar Mansour 1 , Yori Yuliandra 1 , Felcia Lai 1 , Bryson A. Hawkins 1 , Jonathan J, Du 2 , Eric J. Sundberg 2 , Nicolas Sluis-Cremer 3 , David E. Hibbs 1 , Paul W, Groundwater 1
  1. School of Pharmacy , The University of Sydney , Sydney, NSW, Australia
  2. Department of Biochemistry, Emory University School of Medicine, Atlanta, GA, USA
  3. Division of Infectious Diseases, Department of Medicine, University of Pittsburgh, Pittsburgh, PA, USA

Antibacterial resistance is a prominent issue with monotherapy often leading to treatment failure in serious infections. Many mechanisms can lead to antibacterial resistance including deactivation of antibacterial agents by bacterial enzymes. Enzymatic drug modification confers resistance to β-lactams, aminoglycosides, chloramphenicol, macrolides, isoniazid, rifamycins, fosfomycin and lincosamides. Novel enzyme inhibitor adjuvants have been developed in an attempt to overcome resistance to these agents, only a few of which have so far reached the market. This review discusses the different enzymatic processes that lead to deactivation of antibacterial agents and provides an update on the current and potential enzyme inhibitors that may restore bacterial susceptibility