A critical control element for interleukin-4 memory expression in T helper lymphocytes.

Naive T helper (Th) lymphocytes are induced to express the il4 (interleukin-4) gene by simultaneous signaling through the T cell receptor and the interleukin (IL)-4 receptor. Upon restimulation with antigen, such preactivated Th lymphocytes can reexpress the il4 gene independent of IL-4 receptor signaling. This memory for expression of the il4 gene depends on epigenetic modification of the il4 gene locus and an increased expression of GATA-3, the key transcription factor for Th2 differentiation. Here, we have identified a phylogenetically conserved sequence, the conserved intronic regulatory element, in the first intron of the il4 gene containing a tandem GATA-3 binding site. We show that GATA-3 binds to this sequence in a position- and orientation-dependent manner, in vitro and in vivo. DNA demethylation and histone acetylation of this region occurs early and selectively in differentiating, IL-4-secreting Th2 lymphocytes. Deletion of the conserved element by replacement of the first exon and part of the first intron of the il4 gene with gfp leads to a defect in the establishment of memory for expression of IL-4, in that reexpression of IL-4 still requires costimulation by exogenous IL-4. The conserved intronic regulatory element thus links the initial epigenetic modification of the il4 gene to GATA-3 and serves as a genetic control element for memory expression of IL-4.

Establishment of memory for IL-10 expression in developing T helper 2 cells requires repetitive IL-4 costimulation and does not impair proliferation.

T helper (Th) lymphocytes can develop memory for the expression of particular cytokines, like IL-4 or IL-10, in that reexpression of those cytokines is independent of the original costimulatory signal IL-4 and depends only on T cell receptor stimulation. Here, we show that in the course of Th2 cell differentiation in vitro, IL-4 memory is established during primary activation of naïve Th cells, whereas the establishment of IL-10 memory requires repetitive stimulation of the Th cell with IL-4 and T cell receptor. Likewise, established IL-10 memory, maintained in the absence of further IL-4 signals, was observed in individual IL-10-producing cells generated from in vivo antigen-experienced CD62L(low) Th cells and isolated by using the newly developed cytometric cytokine secretion assay for IL-10. In naïve Th cells undergoing primary activation, the induction of both IL-4 and IL-10 memory requires DNA synthesis, but reexpression of the cytokine genes can occur throughout cell cycle. In in vitro polarized Th2 cell populations, Th cells with IL-4 or IL-10 memory do not differ in proliferative behavior. Populations of Th cells isolated from polarized Th2 cultures according to expression of IL-4 or IL-10 also do not differ in proliferative behavior. Their proliferation mainly depends on IL-2. Thus, effector memory Th lymphocytes with memory for IL-4 or IL-10 expression are not intrinsically impaired in their proliferative potential and can play an essential role in reactive immunological memory and its regulation.