Influenza-specific lung-resident memory T cells are proliferative and polyfunctional and maintain diverse TCR profiles
Angela Pizzolla, … , Katherine Kedzierska, Linda M. Wakim
Angela Pizzolla, … , Katherine Kedzierska, Linda M. Wakim
Published January 8, 2018
Citation Information: J Clin Invest. 2018;128(2):721-733. https://doi.org/10.1172/JCI96957.
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Research Article Immunology Infectious disease

Influenza-specific lung-resident memory T cells are proliferative and polyfunctional and maintain diverse TCR profiles

Abstract

The human lung harbors a large population of resident memory T cells (Trm cells). These cells are perfectly positioned to mediate rapid protection against respiratory pathogens such as influenza virus, a highly contagious respiratory pathogen that continues to be a major public health burden. Animal models show that influenza-specific lung CD8+ Trm cells are indispensable for crossprotection against pulmonary infection with different influenza virus strains. However, it is not known whether influenza-specific CD8+ Trm cells present within the human lung have the same critical role in modulating the course of the disease. Here, we showed that human lung contains a population of CD8+ Trm cells that are highly proliferative and have polyfunctional progeny. We observed that different influenza virus–specific CD8+ T cell specificities differentiated into Trm cells with varying efficiencies and that the size of the influenza-specific CD8+ T cell population persisting in the lung directly correlated with the efficiency of differentiation into Trm cells. To our knowledge, we provide the first ex vivo dissection of paired T cell receptor (TCR) repertoires of human influenza–specific CD8+ Trm cells. Our data reveal diverse TCR profiles within the human lung Trm cells and a high degree of clonal sharing with other CD8+ T cell populations, a feature important for effective T cell function and protection against the generation of viral-escape mutants.

Authors

Angela Pizzolla, Thi H.O. Nguyen, Sneha Sant, Jade Jaffar, Tom Loudovaris, Stuart I. Mannering, Paul G. Thomas, Glen P. Westall, Katherine Kedzierska, Linda M. Wakim

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Figure 3

Lung Trm cells are highly proliferative and produce polyfunctional secondary effector cells.

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Lung Trm cells are highly proliferative and produce polyfunctional secon...
Memory CD8+ T cell subsets, delineated based on the expression of CD103 and CD69, were sort purified from human lung tissue and cultured overnight. (A) The graph depicts the proportion of viable cells within each subset (n = 6 donors, 2-way ANOVA, Tukey’s multiple comparison). Memory CD4+ and CD8+ T cell subsets, delineated based on the expression of CD103 and CD69, were purified from human lung tissue. (B) Representative flow cytometry plots show the dilution of CFSE dye following stimulation for 10 days with anti-CD3 and cytokine production following 5 hours restimulation with PMA/ION. (C) Graph shows the proportion of divided cells for each of the CD8+ T cell subsets; line connects samples from individual donors (n = 8 donors, 1-way ANOVA, Tukey’s multiple comparison). (D and E) Polyfunctional profiles of antigen-experienced CD8+ T cell subsets. Pie charts corresponding to polyfunctional profiles of CD103+CD69+ (Trm), CD103CD69+, and CD103CD69 T cell subsets isolated from human lung tissue, cultured for 10 days, and then stimulated for 5 hours with PMA/ION. Assessment of the mean proportion of CD8+ T cells making any combination of 1–3 cytokines ± SEM (IFN-γ, TNF, and granzyme B). (E) Graph depicts values for individual donors (n = 7 donors, 2-way ANOVA, Šidák’s multiple comparison). *P < 0.05; **P < 0.01.