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Quantitative analysis of <i>Borrelia burgdorferi</i> gene expression in naturally (tick) infected mouse strains
Auteur(s)
Lederer, Sharon
Brenner, Christiane
Stehle, Thomas
Wallich, Reinhard
Simon, Markus M.
Date de parution
2005
In
Medical Microbiology and Immunology, Springer, 2005/194/1-2/81-90
Résumé
Adaptation of <i>Borrelia burgdorferi</i> in the vector and vertebrate host is mediated by mechanisms that regulate differential expression of outer surface lipoproteins (Osps). In this study, real time PCR was applied to quantify tissue-specific expression of four linear plasmid (lp54)-encoded (<i>ospA, zs7.a36, zs7.a66 zs7.a68</i>) and one circular plasmid (cp26)-encoded (<i>ospC</i>) gene from <i>B. burgdorferi</i> sensu stricto, in a natural setting of tick-infected immunodeficient (C.B-17 SCID) and immunocompetent (BALB/c and AKR/OlaHsd) mice for up to 120 days post-infection (p.i.). Early during infection (day 30 p.i.) high numbers of spirochetes were found in the heart and joint, but not the ear and spleen tissues of disease-susceptible SCID mice. In disease-susceptible AKR mice spirochetes colonized the ear and joint tissues, but were undetectable in tissues of disease-resistant BALB/c mice. Later in infection (day 120 p.i.), spirochetes had expanded (~1,000-fold) in all SCID tissues tested but were undetectable in AKR and BALB/c mice. Of the five genes analyzed, only <i>zs7.a36</i> transcripts were detected in various tissues of all infected mouse strains, though at differing levels, whereas ospC transcripts were only found in tissue specimens of SCID mice. Furthermore, gene expression of ospC and <i>zs7.a36</i> appears to be differentially regulated in distinct organs of individual mice. In contrast, transcripts for ospA, <i>zs7.a66</i>, and <i>zs7.a68</i> were not detected in any of the mouse strains, independent of their immune status and/or the severity of their infection/inflammatory responses. Late during infection (day 120 p.i.), transcription of <i>zs7.a36</i> and ospC was down-regulated in the tissues of SCID mice despite expansion of spirochetes. This type of quantitative analysis may be helpful to further disclose principles of pathogenesis of Lyme borreliosis and to design strategies for its therapeutic treatment.
Identifiants
Type de publication
journal article
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