Mouse Models for the Study of Borrelia burgdorferi Infection

Lyme disease, a tickborne illness caused by Borrelia burgdorferi, is an emerging, significant public health concern. B. burgdorferi infections are challenging to study because of their complex life cycle that requires adaptation to both ticks and mammalian hosts for long-term survival and transmission. Bacterial adaptation is accomplished through extensive gene expression alterations in response to environmental cues that remain to be more fully explored. Mouse models of infection serve as valuable tools for studying B. burgdorferi adaptation to the mammalian host and the spirochete's ability to cause persistent infections and thus to interact with and evade the immune system. This article details three mouse models that differ in their primary methods of infection: infestation with B. burgdorferi infected ticks, intradermal inoculation of culture-grown spirochetes, and infection via subcutaneous transplantation of infected tissue. Each method offers unique advantages and limitations. Tick infestation is the route of natural transmission but presents logistical challenges. Syringe inoculation is easy and provides precise control over the infectious dose, but infection is with culture-adapted bacteria. Transplantation of infected tissue introduces mammalian-host-adapted B. burgdorferi in precise anatomical locations, but misses the transfer of tick factors affecting immunity. Detailed protocols are provided for each of the three infection routes, and pros and cons of each method are outlined to help researchers identify the best approach for a research question to be addressed. A protocol is also provided for the treatment of mice with antibiotics that reliably eliminates detectable spirochetes from the animals.