Dynamics of circulating lymphocytes responding to human experimental enterotoxigenic Escherichia coli infection.

Enterotoxigenic Escherichia coli (ETEC) is an important cause of children's and travelers' diarrhea, with no licensed vaccine. This study aimed to explore the role of cellular immunity in protection against human ETEC infection. Nine volunteers were experimentally infected with ETEC, six developing diarrhea. Lymphocytes were collected from peripheral blood buffy coats, before and 3, 5, 6, 7, 10 and 28 days after dose ingestion, and 34 phenotypic and functional markers were examined by mass cytometry. Thirty-three cell populations, derived by manually merging 139 cell clusters from the X-shift unsupervised clustering algorithm, were analyzed. Initially, the diarrhea group responded with increased CD56dim CD16 + natural killer cells, dendritic cells tended to rise, and MAIT cells decreased. On day 5-7, an increase in plasmablasts was paralleled by a consistent rise in CD4 + Th17-like effector memory and regulatory cell subsets. CD4 + Th17-like central memory cells peaked on day 10. All Th17-like cell populations showed increased expression of activation, gut-homing and proliferation markers. Interestingly, in the non-diarrhea group, these same CD4 + Th17-like cell populations expanded earlier, normalizing around day 7. Earlier development of these CD4 + Th17-like cell populations in the non-diarrhea group may suggest a recall response and a potential role in controlling ETEC-infections. This article is protected by copyright. All rights reserved.