State Key Laboratory of Chemical Resource Engineering, Beijing Advanced Innovation Center for Soft Matter Science and Engineering, College of Life Science and Technology, Beijing University of Chemical Technology, Beijing, China.
State Key Laboratory of Plant Diversity and Specialty Crops, Institute of Botany, Chinese Academy of Sciences, Beijing, China.
Nature. 2024 Nov;635(8039):719-727. doi: 10.1038/s41586-024-08122-4. Epub 2024 Oct 30.
Prokaryotic anti-phage immune systems use TIR and cGAS-like enzymes to produce 1''-3'-glycocyclic ADP-ribose (1''-3'-gcADPR) and cyclic dinucleotide (CDN) and cyclic trinucleotide (CTN) signalling molecules, respectively, which limit phage replication. However, how phages neutralize these distinct and common systems is largely unclear. Here we show that the Thoeris anti-defence proteins Tad1 and Tad2 both achieve anti-cyclic-oligonucleotide-based anti-phage signalling system (anti-CBASS) activity by simultaneously sequestering CBASS cyclic oligonucleotides. Apart from binding to the Thoeris signals 1''-3'-gcADPR and 1''-2'-gcADPR, Tad1 also binds to numerous CBASS CDNs and CTNs with high affinity, inhibiting CBASS systems that use these molecules in vivo and in vitro. The hexameric Tad1 has six binding sites for CDNs or gcADPR, which are independent of the two high-affinity binding sites for CTNs. Tad2 forms a tetramer that also sequesters various CDNs in addition to gcADPR molecules, using distinct binding sites to simultaneously bind to these signals. Thus, Tad1 and Tad2 are both two-pronged inhibitors that, alongside anti-CBASS protein 2 (Acb2), establish a paradigm of phage proteins that use distinct binding sites to flexibly sequester a considerable breadth of cyclic nucleotides.
原核噬菌体免疫防御系统利用 TIR 和 cGAS 样酶分别产生 1''-3'-糖基环化 ADP-核糖(1''-3'-gcADPR)和环二核苷酸(CDN)和环三核苷酸(CTN)信号分子,从而限制噬菌体的复制。然而,噬菌体如何中和这些不同和共同的系统在很大程度上尚不清楚。在这里,我们表明,Thoeris 防御蛋白 Tad1 和 Tad2 均通过同时隔离 CBASS 环寡核苷酸来实现抗环寡核苷酸的抗噬菌体信号系统(anti-CBASS)活性。除了与 Thoeris 信号 1''-3'-gcADPR 和 1''-2'-gcADPR 结合外,Tad1 还与许多 CBASS CDNs 和 CTNs 具有高亲和力,从而抑制体内和体外使用这些分子的 CBASS 系统。六聚体 Tad1 具有六个结合 CDN 或 gcADPR 的位点,这些位点与两个高亲和力结合 CTN 的位点独立。Tad2 形成一个四聚体,除了 gcADPR 分子外,还隔离各种 CDN,利用不同的结合位点同时结合这些信号。因此,Tad1 和 Tad2 都是双管齐下的抑制剂,与抗 CBASS 蛋白 2(Acb2)一起,建立了噬菌体蛋白利用独特结合位点灵活隔离相当广泛的环核苷酸的范例。
