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Single-molecule localization microscopy reveals STING clustering at the trans-Golgi network through palmitoylation-dependent accumulation of cholesterol.

Haruka KemmokuKanoko TakahashiKojiro MukaiToshiki MoriKoichiro M HirosawaFumika KikuYasunori UchidaYoshihiko KuchitsuYu NishiokaMasaaki SawaTakuma KishimotoKazuma TanakaYasunari YokotaHiroyuki AraiKenichi G N SuzukiTomohiko Taguchi
Published in: Nature communications (2024)
Stimulator of interferon genes (STING) is critical for the type I interferon response to pathogen- or self-derived DNA in the cytosol. STING may function as a scaffold to activate TANK-binding kinase 1 (TBK1), but direct cellular evidence remains lacking. Here we show, using single-molecule imaging of STING with enhanced time resolutions down to 5 ms, that STING becomes clustered at the trans-Golgi network (about 20 STING molecules per cluster). The clustering requires STING palmitoylation and the Golgi lipid order defined by cholesterol. Single-molecule imaging of TBK1 reveals that STING clustering enhances the association with TBK1. We thus provide quantitative proof-of-principle for the signaling STING scaffold, reveal the mechanistic role of STING palmitoylation in the STING activation, and resolve the long-standing question of the requirement of STING translocation for triggering the innate immune signaling.
Keyphrases
  • single molecule
  • atomic force microscopy
  • genome wide
  • mass spectrometry
  • dendritic cells
  • gene expression
  • ms ms
  • dna methylation
  • multiple sclerosis
  • cell free
  • circulating tumor
  • bioinformatics analysis