AI Article Synopsis
- Yersinia pestis, a dangerous pathogen linked to pneumonic illnesses and potential bioweapon use, currently lacks a licensed vaccine.
- Researchers developed chimeric molecules combining cholera toxin with protective antigens from Yersinia species, expressing them in E. coli for study.
- Their findings suggest these chimeras can effectively bind to cells without being toxic, making them promising candidates for new mucosal vaccines.
Article Abstract
Yersinia pestis is a virulent human pathogen and potential biological weapon. Despite a long history of research on this organism, there is no licensed vaccine to protect against pneumonic forms of Y. pestis disease. In the present study, plasmids were constructed to express cholera toxin A(2)/B chimeric molecules containing the LcrV protective antigen from Yersinia enterocolitica and Y. pestis. These chimeras were expressed and purified to high yields from the supernatant of transformed Escherichia coli. Western and GM(1) ELISA assays were used to characterize the composition, receptor-binding and relative stability of the LcrV-CTA(2)/B chimera in comparison to cholera toxin. In addition, we investigated the ability of the Y. pestis LcrV-CTA(2)/B chimera to bind to and internalize into cultured epithelial cells and macrophages by confocal microscopy. These studies indicate that the uptake and trafficking of the LcrV antigen from the chimera is comparable to the trafficking of native toxin. Together these findings report that stable, receptor-binding, non-toxic LcrV-cholera toxin A(2)/B chimeras can be expressed at high levels in E. coli and purified from the supernatant. In addition, the internalization of antigen in vitro reported here supports the development of these molecules as novel mucosal vaccine candidates.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2926231 | PMC |
| http://dx.doi.org/10.1016/j.pep.2010.04.021 | DOI Listing |
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