Novel Poxin Stable cGAMP-Derivatives Are Remarkable STING Agonists.
Samuele StazzoniDaniel F R BöhmerFabian HernichelDilara ÖzdemirAikaterini PappaDavid DrexlerStefan BauernfriedGregor WitteMirko WagnerSimon VethKarl-Peter HopfnerVeit HornungLars M KönigThomas CarellPublished in: Angewandte Chemie (International ed. in English) (2022)
2',3'-cGAMP is a cyclic A- and G-containing dinucleotide second messenger, which is formed upon cellular recognition of foreign cytosolic DNA as part of the innate immune response. The molecule binds to the adaptor protein STING, which induces an immune response characterized by the production of type I interferons and cytokines. The development of STING-binding molecules with both agonistic as well as antagonistic properties is currently of tremendous interest to induce or enhance antitumor or antiviral immunity on the one hand, or to treat autoimmune diseases on the other hand. To escape the host innate immune recognition, some viruses encode poxin endonucleases that cleave 2',3'-cGAMP. Here we report that dideoxy-2',3'-cGAMP (1) and analogs thereof, which lack the secondary ribose-OH groups, form a group of poxin-stable STING agonists. Despite their reduced affinity to STING, particularly the compound constructed from two A nucleosides, dideoxy-2',3'-cAAMP (2), features an unusually high antitumor response in mice.