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Abstract
ROG, a transcriptional repressor, is a direct target gene of NF-AT and a putative negative regulator of T-cell activation. In addition, overexpression of ROG suppresses the activity of GATA-3, implying a role of ROG in the differentiation and function of Th cells. Despite these observations, the function of ROG has yet to be confirmed by loss-of-function approaches. Here we report that ROG-deficient T cells are hypersensitive to anti-CD3 stimulation and produce more interleukin-2 (IL-2) due to enhanced NF-κB activity. ROG-deficient dendritic cells also produce more IL-12p40, another NF-κB target gene. However, ROG-deficient Th cells are capable of differentiating into Th1 and Th2 cells, and ROG-deficient mice have no defect in mounting appropriate Th immune responses in vivo. Thus, ROG is dispensable for the differentiation and function of Th cells but serves as a mediator of NF-AT-initiated suppression of NF-κB. Its mechanism of action and its expression pattern are distinct from those of other transcription factors negatively regulating the activation of T cells.
ACKNOWLEDGMENTS
We thank Sung-Yun Pai for critical review of the manuscript, Elizabeth Leadbetter for assistance in the EAE model, and Kirsten Sigrist for blastocyst injection and implantation.
This work was support by an R01 grant (AI45653) from the National Institutes of Health.