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Ex Vivo Murine Skin Model for B. burgdorferi Biofilm.


ABSTRACT: Borrelia burgdorferi, the causative agent of Lyme disease, has been recently shown to form biofilm structures in vitro and in vivo. Biofilms are tightly clustered microbes characterized as resistant aggregations that allow bacteria to withstand harsh environmental conditions, including the administration of antibiotics. Novel antibiotic combinations have recently been identified for B. burgdorferi in vitro, however, due to prohibiting costs, those agents have not been tested in an environment that can mimic the host tissue. Therefore, researchers cannot evaluate their true effectiveness against B. burgdorferi, especially its biofilm form. A skin ex vivo model system could be ideal for these types of experiments due to its cost effectiveness, reproducibility, and ability to investigate host-microbial interactions. Therefore, the main goal of this study was the establishment of a novel ex vivo murine skin biopsy model for B. burgdorferi biofilm research. Murine skin biopsies were inoculated with B. burgdorferi at various concentrations and cultured in different culture media. Two weeks post-infection, murine skin biopsies were analyzed utilizing immunohistochemical (IHC), reverse transcription PCR (RT-PCR), and various microscopy methods to determine B. burgdorferi presence and forms adopted as well as whether it remained live in the skin tissue explants. Our results showed that murine skin biopsies inoculated with 1 × 107 cells of B. burgdorferi and cultured in BSK-H + 6% rabbit serum media for two weeks yielded not just significant amounts of live B. burgdorferi spirochetes but biofilm forms as well. IHC combined with confocal and atomic force microscopy techniques identified specific biofilm markers and spatial distribution of B. burgdorferi aggregates in the infected skin tissues, confirming that they are indeed biofilms. In the future, this ex vivo skin model can be used to study development and antibiotic susceptibility of B. burgdorferi biofilms in efforts to treat Lyme disease effectively.

SUBMITTER: Torres JP 

PROVIDER: S-EPMC7558507 | biostudies-literature | 2020 Aug

REPOSITORIES: biostudies-literature

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<i>Ex Vivo</i> Murine Skin Model for <i>B. burgdorferi</i> Biofilm.

Torres Jason P JP   Senejani Alireza G AG   Gaur Gauri G   Oldakowski Michael M   Murali Krithika K   Sapi Eva E  

Antibiotics (Basel, Switzerland) 20200819 9


<i>Borrelia burgdorferi</i>, the causative agent of Lyme disease, has been recently shown to form biofilm structures in vitro and <i>in vivo</i>. Biofilms are tightly clustered microbes characterized as resistant aggregations that allow bacteria to withstand harsh environmental conditions, including the administration of antibiotics. Novel antibiotic combinations have recently been identified for <i>B. burgdorferi in vitro</i>, however, due to prohibiting costs, those agents have not been tested  ...[more]

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2021-01-31 | GSE126440 | GEO