Transcription of RORγt in developing Th17 cells is regulated by E-proteins.

In the present study we investigated the molecular mechanisms regulating the expression of RAR-related orphan receptor gamma t (RORγt), the central factor controlling interleukin (IL)-17 transcription and Th17 differentiation. In key studies, we found that cells from mice with major deletions of E-protein transcription factors, E2A and HEB, display greatly reduced RORγt/IL-17 expression and that E-protein-deficient mice exhibit greatly diminished IL-17-dependent inflammation in experimental allergic encephalitis models. In additional studies, we unexpectedly found that cells from mice with deletion of Id3, a protein that inhibits E-protein binding to DNA, display diminished RORγt/IL-17 expression and mice deficient in this protein exhibit decreased Th17-mediated inflammation in a cell-transfer colitis model. The explanation of these initially paradoxical findings came from studies showing that Id3 deficiency leads to increased IL-4-induced GATA-3 expression, the latter a negative regulator of RORγt transcription; thus, increased Id3 expression likely has a net positive effect on RORγt expression via its inhibition of IL-4 production. Finally, we found that both E-proteins and Id3 are upregulated in tandem by the cytokines that induce Th17 differentiation, transforming growth factor-β, and IL-6, implying that these transcription factors are critical regulators of Th17 induction.