γδ T cells regulate airway reactivity, but their role in ozone (O3)-induced airway hyperresponsiveness (AHR) is not known. Our objective was to determine the role of γδ T cells in O3-induced AHR. Different strains of mice, including those that were genetically manipulated or antibody-depleted to render them deficient in total γδ T cells or specific subsets of γδ T cells, were exposed to 2.0 ppm of O3 for 3 hours. Airway reactivity to inhaled methacholine, airway inflammation, and epithelial cell damage were monitored. Exposure of C57BL/6 mice to O3 resulted in a transient increase in airway reactivity, neutrophilia, and increased numbers of epithelial cells in the lavage fluid. TCR-δ−/− mice did not develop AHR, although they exhibited an increase in neutrophils and epithelial cells in the lavage fluid. Similarly, depletion of γδ T cells in wild-type mice suppressed O3-induced AHR without influencing airway inflammation or epithelial damage. Depletion of Vγ1+, but not of Vγ4+ T cells, reduced O3-induced AHR, and transfer of total γδ T cells or Vγ1+ T cells to TCR-δ−/− mice restored AHR. After transfer of Vγ1+ cells to TCR-δ−/− mice, restoration of AHR after O3 exposure was blocked by anti–TNF-α. However, AHR could be restored in TCR-δ−/−mice by transfer of γδ T cells from TNF-α–deficient mice, indicating that another cell type was the source of TNF-α. These results demonstrate that TNF-α and activation of Vγ1+ γδ T cells are required for the development of AHR after O3 exposure
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