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Invasive bacterial pathogens
exploit TLR-mediated downregulation of tight junction components
to facilitate translocation across the epithelium.
Clarke TB, Francella N, Huegel A, Weiser
JN. (2011) Cell Host Microbe 9:404-14.
Streptococcus pneumoniae and Haemophilus influenzae are members
of the normal human nasal microbiota with the ability to
cause invasive infections. Bacterial invasion requires translocation
across the epithelium; however, mechanistic understanding
of this process is limited. Examining the epithelial response
to murine colonization by S. pneumoniae and H. influenzae,
we observed the TLR-dependent downregulation of claudins
7 and 10, tight junction components key to the maintenance
of epithelial barrier integrity. When modeled in vitro, claudin
downregulation was preceded by upregulation of SNAIL1, a
transcriptional repressor of tight junction components, and
these phenomena required p38 MAPK and TGF-β signaling.
Consequently, downregulation of SNAIL1 expression inhibited
bacterial translocation across the epithelium. Furthermore,
disruption of epithelial barrier integrity by claudin 7 inhibition
in vitro or TLR stimulation in vivo promoted bacterial translocation.
These data support a general mechanism for epithelial opening
exploited by invasive pathogens to facilitate movement across
the epithelium to initiate disease.
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