AI Article Synopsis
- There’s a knowledge gap on how Bordetella pertussis adapts during infection in its host.
- Researchers compared gene expression of B. pertussis in the airways of mice with in vitro conditions, finding a 30% difference in gene activity.
- The study revealed distinct expression patterns in the upper and lower airways and identified potential new vaccine targets, demonstrating that understanding B. pertussis adaptation could lead to better vaccines for pertussis.
Article Abstract
There is a lack of insight into the basic mechanisms by which Bordetella pertussis adapts to the local host environment during infection. We analyzed B. pertussis gene expression in the upper and lower airways of mice and compared this to SO4-induced in vitro Bvg-regulated gene transcription. Approximately 30% of all genes were differentially expressed between in vitro and in vivo conditions. This included several novel potential vaccine antigens that were exclusively expressed in vivo. Significant differences in expression profile and metabolic pathways were identified between the upper versus the lower airways, suggesting distinct antigenic profiles. We found high-level expression of several Bvg-repressed genes during infection, and mouse vaccination experiments using purified protein fractions from both Bvg- and Bvg+ cultures demonstrated protection against intranasal B. pertussis challenge. This study provides novel insights into the in vivo adaptation of B. pertussis and may facilitate the improvement of pertussis vaccines.
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| http://dx.doi.org/10.1093/infdis/jiy125 | DOI Listing |
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