Thierry Vasselon scite author profile

The commonly accepted view that enteroinvasive bacteria enter cells of the intestinal epithelial lining through the apical surface can be challenged in the case of shigellosis. This study is based on in vitro experiments that showed that the invasion of human colonic Caco-2 cells by Shigella flexneri occurred through the basolateral pole of these cells. In these experiments, the few bacteria that interacted with the apical surface either bound to microvilli of the cell dome without causing detectable alteration or bound at the level of intercellular junctions at which they demonstrated a limited capacity for paracellular invasion, which permitted subsequent entry through the lateral domain of the cells. Treatment of Caco-2 cell monolayers with ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA), which disrupts intercellular junctions, greatly enhanced the rate of cell infection. These observations suggest a physiopathological paradox that may have important consequences for the understanding of the process of colonic invasion in vivo during shigellosis.

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Toll Receptors: a Central Element in Innate Immune Responses

Vasselon

2002

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Positive control of colanic acid synthesis in Escherichia coli by rmpA and rmpB, two virulence‐plasmid genes of Kiebsiella pneumoniae

Nassif

Honoré

Vasselon

et al. 1989

Molecular Microbiology

101

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In Klebsiella pneumoniae, the mucoid phenotype, which is a virulence factor, is distinct from capsule production. It is positively controlled by a plasmid gene, designated rmpA. When introduced into certain Escherichia coli strains, rmpA induces expression of a mucoid phenotype, which results from overproduction of colanic acid at 30 degrees C but not at 37 degrees C. In E. coli, production of colanic acid is regulated by three genes: rcsA and rcsB which act as positive regulators, and rcsC which is a negative effector. In this work we present evidence that the rmpA gene complemented an rcsA, Ion double mutant of E. coli, but not an rcsA, Ion+ isolate. This leads to the suggestion that rmpA expressed an rcsA-like activity and like rcsA, was negatively controlled at post-transcriptional level by the Lon protease. The nucleotide sequence of rmpA is reported. No homology could be found between the 27 kiloDalton RcsA protein and the deduced amino acid sequence of the 15.5 kiloDalton RmpA protein. Another gene, rmpB, which was required in E. coli recA isolates for full expression of rmpA at 30 degrees C, has been identified on the K. pneumoniae virulence plasmid and shown to encode a 37 kiloDalton protein. Although rmpB was closely linked to rmpA, it was not present on the same transcriptional unit. These results suggested that induction of colanic acid synthesis by the K. pneumoniae virulence gene rmpA, was, at least in E. coli, under the control of the RecA network via rmpB, which may act as a positive regulator of rmpA. We conclude that these plasmid genes may function in K. pneumoniae as regulatory genes controlling the mucoid phenotype, which is itself encoded by the chromosome.

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