Optogenetic STING clustering system through nanobody-fused photoreceptor for innate immune regulation

Stimulator of interferon gene (STING) serves as a key mediator for regulating innate immune response. Despite the dynamic process of STING activation, the role of STING clustering in the STING-mediated immune response remains unclear due to the lack of a suitable tool. We developed an innovative optogenetic STING clustering system, OptoSTING, that employs a nanobody-fused photoreceptor-driven technique to achieve light-responsive STING clustering. By optimizing the protein configuration, we identified an optimal OptoSTING system that induced efficient, robust, and reversible clustering of STING upon blue-light illumination. We confirmed that light-induced STING clustering required ER exit to trigger the stimulation of type I interferon response because only cytosolic fragment of OptoSTING (cyt-OptoSTING) enabled to initiate immune response, not full-length OptoSTING. The precise and temporally controlled clustering by cyt-OptoSTING revealed that STING clustering facilitated the STING signaling pathway through puncta formation of IRF3 as downstream effector protein.

Automated summary

In this study, a novel optogenetic system for STING clustering, OptoSTING, was developed. By using light response, OptoSTING can efficiently induce the clustering of STING, which facilitates the STING signaling pathway through puncta formation of IRF3.