Preferential enhancement by 2-mercaptoethanol of IL-2 responsiveness of T blast cells from old over young mice is associated with potentiated protein kinase C translocation.

Certain thiol compounds have been shown to enhance the T cell-dependent immune response of mice in vivo and the proliferation of T cells in vitro. The magnitude of augmentation is often greater in old than young mice. We hypothesized that the metabolic process that is preferentially up-regulated by thiol compounds in T cells from old mice may reflect a rate-limiting process which contributes to immunosenescence in aging mice. Because IL-2 dependent T cell proliferation in vitro is positively correlated with the strength of T cell-dependent immune response in vivo, we investigated the effects of 2-ME on (a) IL-2 synthesis in vitro, (b) the IL-2-IL-2R binding interaction, and (c) the translocation of PKC from the cytosol to the membrane in Con A-activated splenic T cells from young and old C57BL/6 and C57BL/s mice. The results demonstrated that 2ME does not preferentially enhance the synthesis or secretion of IL-2. Neither the binding affinity of IL-2 to the IL-2R nor the number of receptors on activated T cell blasts differed between young and old mice. At the post-receptor binding level, the magnitude of the translocation of PKC from the cytosol to the membrane was significantly greater in the T blast cells from old than young mice. The preferential enhancement of IL-2-dependent proliferation of T cells from old mice by 2ME is therefore associated with a potentiated translocation of PKC. This would suggest that the metabolic event involved in the translocation of PKC in T cells is vulnerable to aging.