AI Article Synopsis
- IVET, traditionally used on animal models, was applied to humans for the first time to study gene expression of Vibrio cholerae during infection.
- Researchers ingested a library of nontoxigenic V. cholerae strains in five healthy volunteers, recovering approximately 20,000 sucrose-resistant isolates to identify genes preferentially expressed during infection.
- Out of over 7,000 samples analyzed, 217 candidate genes were identified, with 65% of those tested showing similar induction in a mouse model; one notable gene, VC0201 (fhuC), was found to be essential for virulence.
Article Abstract
In vivo expression technology (IVET) has been widely used to study gene expression of human bacterial pathogens in animal models, but has heretofore not been used in humans to our knowledge. As part of ongoing efforts to understand Vibrio cholerae pathogenesis and develop improved V. cholerae vaccines, we have performed an IVET screen in humans for genes that are preferentially expressed by V. cholerae during infection. A library of 8,734 nontoxigenic V. cholerae strains carrying transcriptional fusions of genomic DNA to a resolvase gene was ingested by five healthy adult volunteers. Transcription of the fusion leads to resolvase-dependent excision of a sacB-containing cassette and thus the selectable phenotype of sucrose resistance (Suc(R)). A total of approximately 20,000 Suc(R) isolates, those carrying putative in vivo-induced fusions, were recovered from volunteer stool samples. Analysis of the fusion junctions from >7,000 Suc(R) isolates from multiple samples from multiple volunteers identified 217 candidate genes for preferential expression during human infection. Of genes or operons induced in three or more volunteers, the majority of those tested (65%) were induced in an infant mouse model. VC0201 (fhuC), which encodes the ATPase of a ferrichrome ABC transporter, is one of the identified in vivo-induced genes and is required for virulence in the mouse model.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2084325 | PMC |
| http://dx.doi.org/10.1073/pnas.0705636104 | DOI Listing |
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