Abstract

The innate immune system plays a critical role in the host response against pathogenic microbial infection. However, aberrant activation of the innate immune pathways is a characteristic feature of various diseases. Thus, targeted drugs must be developed based on the understanding of the innate immune signaling pathways. This study demonstrated that an allene small molecule (DWL-4-140) can efficiently and selectively exert regulatory effects on the stimulator of interferon genes (STING), resulting in the downregulation of DNA-induced interferon responses. Mechanistically, DWL-4-140 targeted the cyclized nucleotide-binding domain (CBD) of STING, inhibiting the assembly of the STING multimeric complex and the recruitment of downstream signaling mediators. In addition to downregulating the 10-carboxymethyl-9-acridanone-induced production of inflammatory factors, DWL-4-140 alleviated the pathological features of Trex1 deletion-induced lupus in mice. Thus, this study demonstrated that DWL-4-140 pharmacologically inhibits STING with potential therapeutic applications in auto-inflammatory diseases.

Full Text
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