We previously demonstrated that anti-IgD antibodies conjugated to dextran (alpha delta-dex) were a potent co-stimulus for Ig secretion by resting murine B cells in the presence of cytokines. However, although alpha delta-dex stimulated the secretion of most Ig isotypes it selectively failed to costimulate IgE production even in the presence of high concentrations of IL-4. Earlier reports indicated that unconjugated anti-IgM, which was not an effective costimulus for Ig secretion, in fact inhibited Ig production induced by LPS. We determined the effect of alpha delta-dex, at concentrations that costimulated cytokine-induced Ig secretion, on Ig production by LPS- or T cell-activated B cells, and whether IgE production was affected in a selective manner. We observed that alpha delta-dex inhibited Ig isotype production (IgE > IgG > IgM) by LPS-activated B cells, while further stimulating their proliferation. This effect of alpha delta-dex was mediated directly at the level of the B cell and was accompanied by a comparable inhibition in Ig class switching, as assessed by flow cytometric analysis of membrane Ig isotype-positive cells. The inhibitory effects of alpha delta-dex on LPS-induced Ig secretion and class switching occurred at 1000-fold lower concentrations of anti-IgD than that reported necessary for inhibition by unconjugated anti-IgM. Whereas IL-4 + IL-5 costimulated Ig isotype production by alpha delta-dex-activated cells, the further addition of LPS led to a marked ablation of the Ig secretory response indicating the cross-inhibitory effects of these two modes of B cell activation. By contrast, alpha delta-dex augmented IgM and IgG1 secretion by resting B cells stimulated with either an anti-CD3-activated CD4+ Th2 clone or with activated T cell membranes in combination with IL-4 + IL-5. However, alpha delta-dex potently inhibited T cell-mediated IgE secretion. These findings underscore the existence of, and demonstrate a number of novel interrelationships between, three distinct pathways of B cell differentiation induced by different modes of activation. Further, the observation that pg/ml quantities of alpha delta-dex selectively inhibits T cell-induced IgE production in vitro suggests a novel strategy to down-regulate this Ig isotype in vivo.