Early-life viral infection generates pathological tissue-resident memory cells that contribute to asthma-like disease
Emma E. Brown, Jie Lan, Olivia B. Parks, Li Fan, Dequan Lou, Alysia McCray, Lisa Mathews, Alexander J. Wardropper, Anna Shull, Michelle L. Manni, Heth R. Turnquist, Kong Chen, Taylor Eddens
Emma E. Brown, Jie Lan, Olivia B. Parks, Li Fan, Dequan Lou, Alysia McCray, Lisa Mathews, Alexander J. Wardropper, Anna Shull, Michelle L. Manni, Heth R. Turnquist, Kong Chen, Taylor Eddens
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Research Article Immunology Infectious disease Pulmonology

Early-life viral infection generates pathological tissue-resident memory cells that contribute to asthma-like disease

Abstract

Viral lower respiratory tract infections are common early in life and are associated with long-term development of asthma, a chronic condition defined by reversible airflow obstruction secondary to inflammation. Understanding the immunological mechanism connecting these two pathologies observed early in life becomes imperative to guide therapeutic measures. To investigate this connection, neonatal (days 4–6) or adult mice were infected with human metapneumovirus (HMPV) followed by a secondary HMPV infection 6 weeks later. Mice initially infected as neonates demonstrated increased mucus production, eosinophil recruitment, airway hyperresponsiveness, and Th2 T cell differentiation after rechallenge compared with adult mice rechallenged with HMPV. Neonatal HMPV infection led to formation of Th2 clonally expanded tissue-resident memory (TRM) T cells that were absent after adult HMPV. FTY720-mediated disruption of lymphocyte circulation demonstrated that TRMs contributed to pathology. Local depletion of lung CD4+ T cells and JAK2 inhibition mitigated pathology. These findings suggest TRMs uniquely generated after early-life viral infection can contribute to Th2-driven asthma pathology.

Authors

Emma E. Brown, Jie Lan, Olivia B. Parks, Li Fan, Dequan Lou, Alysia McCray, Lisa Mathews, Alexander J. Wardropper, Anna Shull, Michelle L. Manni, Heth R. Turnquist, Kong Chen, Taylor Eddens

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Figure 3

CD4+ tissue-resident memory cells are skewed toward a Th2 phenotype after early-life viral infection.

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CD4+ tissue-resident memory cells are skewed toward a Th2 phenotype afte...
(A) Gating strategy for isolation of tissue-resident memory (TRM) cells, including exclusion of intravascularly labeled cells (CD45.2) and CD19CD3+CD4+CD62LCD44+CD11a+CD69+. (B) Quantification of TRMs 5 weeks after adult or neonatal HMPV infection (or mock infection). *P < 0.05 by 1-way ANOVA with Šidák’s multiple-comparison test. (C) Representative histograms of intracellular Tbet (left) and GATA3 (right) in TRMs isolated 5 weeks after neonatal or adult HMPV or mock infection. (D) Proportion of CD4+ T cells expressing Tbet or GATA3 in NeoTRM or AdultTRM. *P < 0.05, **P < 0.01 by 2-way ANOVA with Šidák’s multiple-comparison test. (E) Localization of GATA3+, CD4+, and CD19+ cells 5 weeks after adult or neonatal HMPV infection using RNAscope. (F) Quantification of CD4 and GATA3 MFI per individual iBALT structure. **P < 0.01, ***P < 0.005 by 2-tailed Student’s t test.