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<scp>Anti‐CD3</scp> inhibits circulatory and tissue‐resident memory <scp>CD4</scp> T cells that drive asthma exacerbations in mice

Gurupreet S. Sethi, Donald T. Gracias, Rinkesh Kumar Gupta, Daniel Carr, Haruka Miki, Ricardo da Silva Antunes, Michael Croft

2023Allergy14 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Exacerbations of asthma are thought to be strongly dependent on reactivation of allergen-induced lung tissue-resident and circulatory memory CD4 T cells. Strategies that broadly inhibit multiple T cell populations might then be useful to limit asthma. Accordingly, we tested whether targeting CD3 during exposure to inhaled allergen could prevent the accumulation of lung-localized effector memory CD4 T cells and block exacerbations of asthmatic inflammation. METHODS: House dust mite-sensitized and repetitively challenged BL/6 mice were transiently treated therapeutically with F(ab')2 anti-CD3ε and memory T cell responses and lung inflammation were assessed. PBMCs from HDM-allergic donors were examined for the effect of anti-CD3 on expansion of allergen-reactive T cells. RESULTS: Allergen-sensitized mice undergoing exacerbations of asthma were protected from lung inflammation by transient therapeutic treatment with F(ab')2 anti-CD3. Regardless of whether sensitized mice underwent a secondary or tertiary recall response to inhaled allergen, anti-CD3 inhibited all phenotypes of effector memory CD4 T cells in the lung tissue and lung vasculature by 80%-90%, including those derived from tissue-resident and circulatory memory T cells. This did not depend on Treg cells suggesting it was primarily a blocking effect on memory T cell signaling. Correspondingly, anti-CD3 also strongly inhibited proliferation of human allergen-reactive memory CD4 T cells from allergic individuals. In contrast, the number of surviving tissue-resident memory CD4 T cells that were maintained in the lungs at later times was not robustly reduced by anti-CD3. CONCLUSION: Anti-CD3 F(ab')2 administration at the time of allergen exposure represents a viable strategy for limiting the immediate activity of allergen-responding memory T cells and asthma exacerbations.

Topics & Concepts

ImmunologyCD3InflammationLungT cellMedicineAllergenAsthmaAllergyCD8Immune systemInternal medicineAsthma and respiratory diseasesT-cell and B-cell ImmunologyIL-33, ST2, and ILC Pathways
<scp>Anti‐CD3</scp> inhibits circulatory and tissue‐resident memory <scp>CD4</scp> T cells that drive asthma exacerbations in mice | Litcius