Interruption of post-Golgi STING trafficking activates tonic interferon signaling
Xintao Tu, Tingting Chu, Devon Jeltema, Kennady Abbott, Kun Yang, Cong Xing, Jie Han, Nicole Dobbs, Nan Yan
Abstract
Abstract Activation of the cGAS-STING pathway is traditionally considered a “trigger-release” mechanism where detection of microbial DNA or cyclic di-nucleotides sets off the type I interferon response. Whether this pathway can be activated without pathogenic ligand exposure is less well understood. Here we show that loss of Golgi-to-lysosome STING cofactors, but not ER-to-Golgi cofactors, selectively activates tonic interferon signalling. Impairment of post-Golgi trafficking extends STING Golgi-dwell time, resulting in elevated immune signalling and protection against infection. Mechanistically, trans-Golgi coiled coil protein GCC2 and several RAB GTPases act as key regulators of STING post-Golgi trafficking. Genomic deletion of these factors potently activates cGAS-STING signalling without instigating any pathogenic trigger for cGAS. Gcc2 −/− mice develop STING-dependent serologic autoimmunity. Gcc2 -deleted or Rab14 -deleted cancer cells induce T-cell and IFN-dependent anti-tumour immunity and inhibit tumour growth in mice. In summary, we present a “basal flux” mechanism for tonic cGAS-STING signalling, regulated at the level of post-Golgi STING trafficking, which could be exploited for cancer immunotherapy.