- Lee, Jihyung;
- Zhang, Junyan;
- Chung, Young-Jun;
- Kim, Jun Hwan;
- Kook, Chae Min;
- González-Navajas, José M;
- Herdman, David S;
- Nürnberg, Bernd;
- Insel, Paul A;
- Corr, Maripat;
- Mo, Ji-Hun;
- Tao, Ailin;
- Yasuda, Kei;
- Rifkin, Ian R;
- Broide, David H;
- Sciammas, Roger;
- Webster, Nicholas JG;
- Raz, Eyal
Cyclic AMP (cAMP) is involved in many biological processes but little is known regarding its role in shaping immunity. Here we show that cAMP-PKA-CREB signaling (a pattern recognition receptor [PRR]-independent mechanism) regulates conventional type-2 Dendritic Cells (cDC2s) in mice and reprograms their Th17-inducing properties via repression of IRF4 and KLF4, transcription factors essential for cDC2-mediated Th2 induction. In mice, genetic loss of IRF4 phenocopies the effects of cAMP on Th17 induction and restoration of IRF4 prevents the cAMP effect. Moreover, curdlan, a PRR-dependent microbial product, activates CREB and represses IRF4 and KLF4, resulting in a pro-Th17 phenotype of cDC2s. These in vitro and in vivo results define a novel signaling pathway by which cDC2s display plasticity and provide a new molecular basis for the classification of novel cDC2 and cDC17 subsets. The findings also reveal that repressing IRF4 and KLF4 pathway can be harnessed for immuno-regulation.