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Il4 and Il13 encode the canonical T helper 2 (TH2) cytokines responsible both for promoting immune responses against extracellular pathogens and, when misregulated, causing allergic and autoimmune disease. The expression potential of these genes undergoes developmentally programmed repression and enhancement during commitment of naïve CD4+ T cells to the mature T helper 1 (TH1) and TH2 fates, respectively. Thus, like the globin locus, the TH2 cytokine locus provides a highly tractable system to study a developmental fate choice leading to alternative transcriptional states of either silence or permissivity. We used quantitative chromatin immunoprecipitation and RT-PCR to correlate changes in the transcriptional states of Il4 and Il13 with markers of permissive chromatin across the Il4-Il13 locus in naïve CD4+ T cells undergoing TH1 and TH2 differentiation. We provide evidence that DNaseI hypersensitive site V in the Il4 3' enhancer is the likely target for signals maintaining Il4 and Il13 transcriptional permissivity in naïve cells. We also demonstrate rapid acquisition of differences in H3 acetylation between TH1- and TH2-primed cells, indicating a developmentally early role for cytokine signaling in the process of TH cell fate determination. Finally, we show that transcriptional repression correlates with the disappearance of permissive H3 modifications from everywhere in the Il4-Il13 locus except hypersensitive site IV, suggesting a critical role for this element in the maintenance of transcriptional repression. Our findings are consistent with a progressive regulatory element activation/deactivation model of TH1/TH2 development.

Chromatin landscape dynamics of theIl4–Il13locus during T helper 1 and 2 development