AUTHOR=Fresnay Stephanie , McArthur Monica A. , Magder Laurence S. , Darton Thomas C. , Jones Claire , Waddington Claire S. , Blohmke Christoph J. , Angus Brian , Levine Myron M. , Pollard Andrew J. , Sztein Marcelo B. 

TITLE=Importance of Salmonella Typhi-Responsive CD8+ T Cell Immunity in a Human Typhoid Fever Challenge Model

JOURNAL=Frontiers in Immunology

VOLUME=8

YEAR=2017

URL=https://www.frontiersin.org/journals/immunology/articles/10.3389/fimmu.2017.00208

DOI=10.3389/fimmu.2017.00208

ISSN=1664-3224

ABSTRACT=<p>Typhoid fever, caused by the human-restricted organism <italic>Salmonella enterica</italic> serovar Typhi (<italic>S</italic>. Typhi), constitutes a major global health problem. The development of improved attenuated vaccines is pressing, but delayed by the lack of appropriate preclinical models. Herein, we report that high levels of <italic>S</italic>. Typhi-responsive CD8+ T cells at baseline significantly correlate with an increased risk of disease in humans challenged with a high dose (~10<sup>4</sup> CFU) wild-type <italic>S</italic>. Typhi. Typhoid fever development was associated with higher multifunctional <italic>S</italic>. Typhi-responsive CD8+ T effector memory cells at baseline. Early decreases of these cells in circulation following challenge were observed in both <italic>S</italic>. Typhi-responsive integrin α<sub>4</sub>β<sub>7</sub>− and integrin α<sub>4</sub>β<sub>7</sub>+ CD8+ T effector memory (T<sub>EM</sub>) cells, suggesting their potential to home to both mucosal and extra-intestinal sites. Participants with higher baseline levels of <italic>S</italic>. Typhi-responsive CD8+ T memory cells had a higher risk of acquiring disease, but among those who acquired disease, those with a higher baseline responses took longer to develop disease. In contrast, protection against disease was associated with low or absent <italic>S</italic>. Typhi-responsive T cells at baseline and no changes in circulation following challenge. These data highlight the importance of pre-existing <italic>S</italic>. Typhi-responsive immunity in predicting clinical outcome following infection with wild-type <italic>S</italic>. Typhi and provide novel insights into the complex mechanisms involved in protective immunity to natural infection in a stringent human model with a high challenge dose. They also contribute important information on the immunological responses to be assessed in the appraisal and selection of new generation typhoid vaccines.</p>