Human microglia polarization following infection with the Lyme disease spirochete

Infection with Borrelia burgdorferi can spread and cause central nervous system involvement, known as neuroborreliosis. Microglia phagocytose bacteria, mediate inflammation, and elicit an immune response toward the spirochete. Like other tissue macrophages, microglia can polarize into two different modulatory phenotypes, M1 and M2. We explored human microglial polarization changes upon infection with B. burgdorferi. HMC3 human microglia cell line was infected with B. burgdorferi for 24 h. Expression of polarization markers was evaluated via flow cytometry at 4 and 24 h. Secreted immunological mediators were evaluated using a multiplex ELISA system at 4, 18, and 24 h. An early decrease followed by a later increase in expression of M1 polarization marker iNOS was observed at 4 h, and 24 h, respectively. A decrease in M2 marker CX3CR1 occurred at 24 h. There were no changes in expression of M1 markers CD14, or in M2 markers CD163 and CD206. Multiplex ELISA evidenced an increase in secretion of activation markers MIP-1α, MIP- 1β, IP-10, chemotactic factor MCP-1, M1 polarization cytokine IL-8, and VEGF, at 4, 18, and 24 h. A decrease of iNOS at 4 h of infection suggests a diminished production of reactive nitrogen species that are a critical component of innate defense against infection. Increased iNOS and simultaneously decreased expression of CX3CR1 at 24 h, may suggest initiation of neuroprotective regulation of microglia recruitment to neuroinflammation. The dynamics of major inflammatory cytokines appear to be important in the microglial response to B. burgdorferi and should be further studied as these could become therapeutic targets in neuroborreliosis.