Non-canonical STAT3 function reduces REDD1 transcription

The transcription factor STAT3 is a potent activator of transcription, but evidence exists that STAT3 can also repress gene expression. However, little is known about the molecular mechanisms involved in STAT3-dependent gene repression. Notably, STAT3 reduces the expression of the stress-induced mTOR inhibitor REDD1 by reducing REDD1 mRNA transcription. Here, we determined the functional domains of STAT3 responsible for the reduction of REDD1 mRNA and protein expression. Within STAT3, the N-terminal domain and tyrosine 705 are crucial for STAT3-dependent reduction of REDD1 expression. Interestingly, binding of STAT3 to canonical STAT-binding sides within the REDD1 promoter is not necessary for STAT3-mediated reduction of REDD1 expression. Still, STAT3 is recruited to the REDD1 promoter upon stimulation with IL-6, and reduces REDD1 promoter activity. The reduction of REDD1 expression is specific for STAT3, as neither expression nor activation of STAT1 reduces REDD1 mRNA and protein expression. In summary, we present a novel, non-canonical STAT3-dependent mechanism for reducing gene expression. This transcriptional repression increases the functions of STAT3 proteins beyond classical transcriptional activation of cytokine-regulated target genes to a more complex function in modulating gene expression in immunity and cellular stress.

Automated summary

STAT3 is a transcription factor that can both activate and repress gene expression. In this study, the researchers investigated the molecular mechanisms involved in STAT3-dependent gene repression. They found that STAT3 decreases the expression of REDD1, an mTOR inhibitor, by reducing its mRNA transcription. The researchers also identified the specific domains of STAT3 responsible for this reduction in REDD1 expression.