[HTML][HTML] Single Cell Bottlenecks in the Pathogenesis of Streptococcus pneumoniae

M Kono, MA Zafar, M Zuniga, AM Roche… - PLoS …, 2016 - journals.plos.org
M Kono, MA Zafar, M Zuniga, AM Roche, S Hamaguchi, JN Weiser
PLoS pathogens, 2016journals.plos.org
Herein, we studied a virulent isolate of the leading bacterial pathogen Streptococcus
pneumoniae in an infant mouse model of colonization, disease and transmission, both with
and without influenza A (IAV) co-infection. To identify vulnerable points in the multiple steps
involved in pneumococcal pathogenesis, this model was utilized for a comprehensive
analysis of population bottlenecks. Our findings reveal that in the setting of IAV co-infection
the organism must pass through single cell bottlenecks during bloodstream invasion from …
Herein, we studied a virulent isolate of the leading bacterial pathogen Streptococcus pneumoniae in an infant mouse model of colonization, disease and transmission, both with and without influenza A (IAV) co-infection. To identify vulnerable points in the multiple steps involved in pneumococcal pathogenesis, this model was utilized for a comprehensive analysis of population bottlenecks. Our findings reveal that in the setting of IAV co-infection the organism must pass through single cell bottlenecks during bloodstream invasion from the nasopharynx within the host and in transmission between hosts. Passage through these bottlenecks was not associated with genetic adaptation by the pathogen. The bottleneck in transmission occurred between bacterial exit from one host and establishment in another explaining why the number of shed organisms in secretions is critical to overcoming it. These observations demonstrate how viral infection, and TLR-dependent innate immune responses it stimulates and that are required to control it, drive bacterial contagion.
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