Abstract
The stimulator of interferon genes (STING) protein has emerged as a critical signal transduction molecule in the innate immune response. Sustained activation of the STING signaling induced by cytosolic DNA has been considered to be the cause of a variety of autoimmune diseases characterized by uncontrolled inflammation. Therefore, it is important to understand the molecular basis of the regulation of STING signaling pathway. Here we demonstrate that the STING protein undergoes a proteasome-mediated degradation in human diploid cell (HDC) lines including MRC-5 following the transfection of double-stranded DNA (dsDNA). The degradation of STING is accompanied by the increased expression of both RIG-I and IL-6. Employing the RIG-I siRNA knockdown and an IL-6 neutralizing antibody greatly inhibits the degradation of STING induced by dsDNA. We further demonstrate that both IL-6 and RIG-I are downstream molecules of STING along the DNA sensor pathway. Therefore, STING degradation mediated by RIG-I and IL-6 may serve as a negative feedback mechanism to limit the uncontrolled innate immune response induced by dsDNA. We have further shown that RIG-I and IL-6 promote STING degradation by activating/dephosphorylating UNC-51-like kinase (ULK1). Interestingly, the STING protein is not significantly affected by dsDNA in non-HDC HEK293 cells. Our study thus has identified a novel signaling pathway for regulating STING in HDCs.
Highlights
Our present study provides a new mechanism for controlling stimulator of interferon genes (STING) activity by its downstream molecules Retinoic-acid inducible gene I (RIG-I) and IL-6, which negatively regulate the stability of STING protein
We demonstrated that RIG-I was involved in double-stranded DNA (dsDNA) signaling pathway in human diploid cell (HDC) cells, which was supported by the evidence of dose-dependent increase of RIG-I expression after introduction of dsDNA into MRC-5 cells
We conclude that RIG-I and IL-6 are downstream components of the STING pathway, and the stability of STING regulated by RIG-I and IL-6 reflects a negative feedback mechanism for limiting the dsDNA-induced uncontrolled innate immune response in HDC cells
Summary
We found that the DNA transfection induced a significant increase in IFN-β expression in a dose- and time-dependent manner (Fig 1A and 1B) and a remarkable reduction in the replication of both rTV and Sendai virus in a dosedependent manner (Fig 1C and 1D), suggesting that the dsDNA induced an IFN-β response and subsequent antiviral activity in MRC-5 cells. Considering the importance of STING in mediating the dsDNA-induced responses, we assessed the STING protein expression using Western blotting after DNA transfection in MRC-5 cells.
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