Specific V beta T cell subsets mediate the immediate hypersensitivity response to ragweed allergen.

T and B cell responses after sensitization to ragweed (RW) were examined in a mouse model in which BALB/c mice were exposed to the allergen by ultrasonic nebulization. Sensitization resulted in the stimulation of an IgE anti-RW response and was paralleled by a rise in IgG1 anti-RW titers. Skin testing for immediate cutaneous hypersensitivity revealed the presence of allergic type I reactions to RW. Sensitization to RW in this way was also associated with the development of increased airways responsiveness as determined by electrical field stimulation of preparations of tracheal smooth muscle. Histologic examination of the airways and the lung indicated the presence of a mononuclear cell infiltrate in the mucosa and submucosa of the airways that was accompanied by an enlargement of local draining lymph nodes of the airways and the lung. T cell populations were analyzed for the frequency of V beta-expressing T cells. Such analysis indicated that RW sensitization stimulated the expression of V beta 8.1+, V beta 8.2+, and V beta 13+ T cells in the local lymphoid tissue and of V beta 8.1+, V beta 8.2+, V beta 8.3+, V beta 9+ and V beta 14+ T cells in the spleen. Co-culture of these T cell populations with RW-primed B cells indicated that in the presence of RW, V beta 8.2 T cells stimulated IgE and IgG1 production, whereas the other T cell populations showed a different stimulation profile for Ig isotypes and IgG subclasses. The transfer of V beta 8.2 T cells from sensitized but not from nonsensitized control mice stimulated an allergen-specific IgE and IgG1 response and increased airways responsiveness in naive recipients. These data provide additional support for the pivotal role of specific V beta-expressing T cell subpopulations in the stimulation of IgE/IgG1 production and increased airways responsiveness.