Abstract Bidirectional communication between the intestinal epithelial barrier and the immune cells in the underlying lamina propria is critical to human health. This study investigates the impact of human T cell subtypes on intestinal epithelial cell phenotype and survival. Blood-derived CD4+ or CD8+ T cells were isolated from healthy human participants using negative magnetic separation and co-cultured with healthy human colonic epithelial stem cell spheroids suspended in Matrigel. A subset of T cells was activated by anti-CD3/CD28 cross-linking for 24 h prior to co-culture. Only activated CD4+ T cells (ACD4) caused significant epithelial cell damage and death as measured by histological scoring of brightfield microscopic images and zombie violet+ epithelial cells detected by flow cytometry. The mechanism of cell damage and death was determined to be via soluble mediators, in that conditioned media from ACD4 but not activated CD8+ T cells (ACD8) significantly induced spheroid cell damage and death. A Luminex cytokine multiplex assay revealed that high levels of IFN-γ, IL-17, and TNF-α were produced by ACD4 as compared with ACD8. Neutralizing IFN-γ antibody completely protected spheroids from death induced by ACD4. In contrast, the addition of only IFN-γ protein did not induce spheroid cell death. This finding conflicts with currently published literature that indicates IFN-γ protein is able to induce spheroid cell death for both humans and mice. In addition, ACD8 also secrete IFN-γ, although to a lesser extent than ACD4, yet do not initiate spheroid cell death. These results indicate that there is a unique mixture of immune mediator released by ACD4s that mediate spheroid damage and death. DP1 DA-037997 T32 GM007250
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