Lyme disease, caused by Borrelia burgdorferi in the United States, is an escalating human health problem that can cause severe disease if not properly treated. Doxycycline is the primary treatment option for Lyme disease; however, several concerns are associated with high-dose doxycycline treatment. For example, doxycycline is a broad spectrum and kills beneficial bacteria. Doxycycline is also known produce unwanted off-target effects in eukaryotic cells. Some at risk populations such as young children cannot be prescribed doxycycline and, in addition to these shortcomings, the treatment appears to fail in 10 to 20% of cases. We reasoned that safe, alternative therapies may currently exist but have not yet been... More
Lyme disease, caused by Borrelia burgdorferi in the United States, is an escalating human health problem that can cause severe disease if not properly treated. Doxycycline is the primary treatment option for Lyme disease; however, several concerns are associated with high-dose doxycycline treatment. For example, doxycycline is a broad spectrum and kills beneficial bacteria. Doxycycline is also known produce unwanted off-target effects in eukaryotic cells. Some at risk populations such as young children cannot be prescribed doxycycline and, in addition to these shortcomings, the treatment appears to fail in 10 to 20% of cases. We reasoned that safe, alternative therapies may currently exist but have not yet been discovered due to the challenges associated with drug screening approaches. We screened nearly 500 FDA-approved compounds using an array of physiological, cellular, and molecular techniques. Top-performing candidates were counter-screened to identify compounds that did not impact other bacterial phyla. Piperacillin emerged as a compound that eradicated B. burgdorferi at low-nanomolar concentrations by specifically interfering with the unusual, multi-zonal peptidoglycan synthesis pattern common to the Borrelia clade. Mechanistic in vitro studies identified the cellular target of piperacillin in B. burgdorferi and produced key insights that may explain both the specificity and efficacy of the compound. Further, in vivo studies using an experimental mouse infection model demonstrated that piperacillin treated animals at a 100-fold lower dose than the effective dose of doxycycline without impacting the murine microbiome. Our findings suggest that piperacillin may offer clinicians another therapeutic option for Lyme disease.One sentence summary:Piperacillin, an FDA-approved beta-lactam is effective at killing the Lyme disease-causing agent, Borrelia burgdorferi.
