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Mucosal penetration primes Vibrio cholerae
for host colonization by repressing quorum sensing
Zhi Liu, Tim Miyashiro, Amy Tsou, Ansel Hsiao, Mark Goulian,
and Jun Zhu
PNAS 105:9769-9774, 2008.
To successfully infect a host and cause the diarrheal disease
cholera, Vibrio cholerae must penetrate the intestinal
mucosal layer and express virulence genes. Previous studies
have demonstrated that the transcriptional regulator HapR,
which is part of the quorum sensing network in V. cholerae,
represses the expression of virulence genes. Here, we show
that hapR expression is also modulated by the regulatory
network that governs flagellar assembly. Specifically, FliA,
which is the alternative σ-factor (σ28) that
activates late-class flagellin genes in V. cholerae,
represses hapR expression. In addition, we show
that mucin penetration by V. cholerae is sufficient
to break flagella, and so cause the secretion of FlgM, the
anti-σ factor that inhibits FliA activity. During initial
colonization of host intestinal tissue, hapR expression
is repressed due to low cell density. However, full repression
of hapR expression does not occur in fliA mutants,
which results in attenuated colonization. Our results suggest
that V. cholerae uses flagellar machinery to sense
particular intestinal signals prior to colonization and enhance
the expression of virulence genes by modulating the output
of quorum sensing signaling. |
