IL-6 is a potent cofactor of IL-1 in IgM synthesis and of IL-5 in IgA synthesis.

In these studies we determined the capacity of IL-6 to act as a differentiation cofactor for murine Peyer's patch B cells producing different Ig classes and subclasses. In preliminary studies we determined that sufficient endogenous IL-6 was produced in LPS-induced cell systems to obscure responses to exogenous IL-6. We therefore studied IL-6 effects on Peyer's patch B cells (T cell-depleted cell populations) in the absence of LPS, relying on responses of in vivo-activated cells. rIL-1 alpha or purified IL-6 only slightly enhanced synthesis of IgM over minimal baseline levels in Peyer's patch T cell-depleted cell cultures; however, when IL-6 was added to cultures also containing rIL-1, IgM synthesis was very substantially increased. In addition, rIL-5 alone gave rise to a modest increase in IgM synthesis and its effect was not enhanced by either rIL-1 or IL-6. IgG production (mainly IgG3) followed a similar pattern. In contrast, IgA production was only modestly increased above baseline by rIL-1, rIL-5, or IL-6 alone or by rIL-1 and IL-6 in combination, but was greatly increased by rIL-5 and IL-6 in combination. The effect of IL-6 on Ig synthesis in the above studies was not due to an effect on cell proliferation. In summary, these data indicate that B cells differ in respect to the cytokines supporting maximal terminal differentiation and thus the class of Ig produced may depend on the presence of a particular combination of cytokines and lymphokines.