The Vgamma4(+) pulmonary subset of gammadelta T cells regulates innate airway responsiveness in the absence of alphabeta T cells. We now have examined the same subset in a model of allergic airway disease, OVA-sensitized and challenged mice that exhibit Th2 responses, pulmonary inflammation, and airway hyperreactivity (AHR). In sensitized mice, Vgamma4(+) cells preferentially increased in number following airway challenge. Depletion of Vgamma4(+) cells before the challenge substantially increased AHR in these mice, but had no effect on airway responsiveness in normal, nonchallenged mice. Depletion of Vgamma1(+) cells had no effect on AHR, and depletion of all TCR-delta(+) cells was no more effective than depletion of Vgamma4(+) cells alone. Adoptively transferred pulmonary lymphocytes containing Vgamma4(+) cells inhibited AHR, but lost this ability when Vgamma4(+) cells were depleted, indicating that these cells actively suppress AHR. Eosinophilic infiltration of the lung and airways, or goblet cell hyperplasia, was not affected by depletion of Vgamma4(+) cells, although cytokine-producing alphabeta T cells in the lung increased. These findings establish Vgamma4(+) gammadelta T cells as negative regulators of AHR and show that their regulatory effect bypasses much of the allergic inflammatory response coincident with AHR.