Interleukin‐7 activates p56lck and p59fyn, two tyrosine kinases associated with the p90 interleukin‐7 receptor in primary human T cells

Abstract

We have investigated signaling events associated with the cloned 90-kDa (p90) interleukin-7 receptor (IL-7R) to determine whether changes in the signaling pathways initiated by this molecule can explain the ability of T cells to proliferate to IL-7 following activation. Using in vitro kinase assays we find that the p90 IL-7R in both unstimulated and activated human T cells is physically associated with two molecules with intrinsic kinase activity. Western blotting analysis reveals these proteins to be the src kinase enzymes, p59^fyn and p56^lck. Binding of human recombinant IL-7 to the p90 IL-7R results in increased activity of both receptor-associated kinases in both resting and activated mature T cells. Thus, the signaling pathways initiated via the p90 IL-7R-associated src kinases are unlikely to be solely responsible for the proliferation of only activated T cells in response to IL-7. Additional signals, which may derive from other IL-7R-associated molecules such as the γc, are clearly required for IL-7-driven proliferation of activated primary T cells.