Homeostatic cytokines reciprocally modulate the emergence of prenatal effector PLZF+CD4+ T cells in humans
Veronica Locher, Sara Park, Daniel G. Bunis, Stephanie Makredes, Margareta Mayer, Trevor D. Burt, Gabriela K. Fragiadakis, Joanna Halkias
Veronica Locher, Sara Park, Daniel G. Bunis, Stephanie Makredes, Margareta Mayer, Trevor D. Burt, Gabriela K. Fragiadakis, Joanna Halkias
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Research Article Development Immunology

Homeostatic cytokines reciprocally modulate the emergence of prenatal effector PLZF+CD4+ T cells in humans

Abstract

The development of human prenatal adaptive immunity progresses faster than previously appreciated, with the emergence of memory CD4+ T cells alongside regulatory T cells by midgestation. We previously identified a prenatal specific population of promyelocytic leukemia zinc finger–positive (PLZF+) CD4+ T cells with heightened effector potential that were enriched in the developing intestine and accumulated in the cord blood of infants exposed to prenatal inflammation. However, the signals that drive their tissue distribution and effector maturation are unknown. Here, we define the transcriptional and functional heterogeneity of human prenatal PLZF+CD4+ T cells and identify the compartmentalization of T helper–like (Th-like) effector function across the small intestine (SI) and mesenteric lymph nodes (MLNs). IL-7 was more abundant in the SI relative to the MLNs and drove the preferential expansion of naive PLZF+CD4+ T cells via enhanced STAT5 and MEK/ERK signaling. Exposure to IL-7 was sufficient to induce the acquisition of CD45RO expression and rapid effector function in a subset of PLZF+CD4+ T cells, identifying a human analog of memory phenotype CD4+ T cells. Further, IL-7 modulated the differentiation of Th1- and Th17-like PLZF+CD4+ T cells and thus likely contributes to the anatomic compartmentalization of human prenatal CD4+ T cell effector function.

Authors

Veronica Locher, Sara Park, Daniel G. Bunis, Stephanie Makredes, Margareta Mayer, Trevor D. Burt, Gabriela K. Fragiadakis, Joanna Halkias

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Figure 2

Prenatal PLZF+CD4+ T cells display spatially compartmentalized effector function.

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Prenatal PLZF+CD4+ T cells display spatially compartmentalized effector ...
(A) Representative flow plot of the gating strategy used for the identification of cytokine-producing cells within memory PLZF+ and PLZF CD4+ T cells in the prenatal SI and MLNs. All PLZF+ and PLZF populations were pregated on TCRαβ+CD4+CD45RO+ T cells. (BI) Distinct patterns of cytokine production within memory CD4+ T cells from the prenatal SI and MLNs. Quantification (B, D, E, G, and H) and representative flow plots (C, F, and I) of indicated intracellular cytokine staining after stimulation within PLZF (gray) and PLZF+ (orange) CD45RO+CD4+ T cells. Cells were stimulated as indicated for 16 hours, and Brefeldin A was added in the last 4 hours. Flow plots indicate representative intracellular cytokine staining following stimulation with (C) IL-12 + IL-18, (F) αCD3/CD28 monoclonal antibodies (mAbs) + IL-33 + IL-2, and (I) IL-23 + IL-1β + IL-12 + IL-18. Circles represent individual donors. Paired ANOVA with Tukey’s multiple-comparison test (B, D, E, G, and H). *P < 0.05, **P < 0.01, ****P < 0.0001. Gray and black asterisks and brackets denote comparison between PLZF and PLZF+ CD4+ T cell subsets, respectively. Large dots were used for improved visualization of small memory CD4+ T cell numbers within the MLNs. Numbers in flow cytometry plots represent the mean frequency of gated populations ± SD.