State Key Laboratory of Elemento-organic Chemistry, Department of Chemical Biology, College of Chemistry, Nankai University, Tianjin 300071, China.
State Key Laboratory of Medicinal Chemical Biology and College of Pharmacy, Tianjin Key Laboratory of Molecular Drug Research, Nankai University, Tianjin 300071, China.
Bioorg Med Chem. 2021 Jan 1;29:115899. doi: 10.1016/j.bmc.2020.115899. Epub 2020 Nov 26.
Cyclic dinucleotides (CDNs) could activate stimulator of interferon genes (STING) protein to produce type I interferon and other pro-inflammation cytokines in mammalian cells. To explore new types of potentially efficient STING activators targeting all five major hSTING variants (WT, R232H, HAQ, AQ and R293Q), we here reported the synthesis of a total of 19 inosine-containing CDNs based on the combinations of hypoxanthine with four natural bases (A, G, C and U) and three phosphodiester linkage backbones (3'-3', 2'-3', 2'-2'). The IFN-β induction results showed that all of the 2'-3' and 2'-2' CDNs linked by inosine and purine nucleosides favored the stacking interaction with Y167 and R238 residues of hSTING protein, and several CDNs constructed by hypoxanthine and pyrimidine like c[I(2',5')U(2',5')] could also activate all five hSTING variants. The molecular dynamic simulation and the isothermal titration calorimetric (ITC) assay further demonstrated the potential of cAIMP isomers with 2'-5' phosphate to form the hydrogen binding with R232 and R238 residues of hSTING in an entropically driven manner compared to cGAMP isomers. It would be promising to exploit novel inosine-mixed CDNs as activators of hSTING variants in immune therapy.
环二核苷酸 (CDNs) 可以激活干扰素基因刺激蛋白 (STING) 在哺乳动物细胞中产生 I 型干扰素和其他促炎细胞因子。为了探索针对所有五种主要 hSTING 变体 (WT、R232H、HAQ、AQ 和 R293Q) 的新型潜在有效 STING 激活剂,我们在此报道了总共 19 种基于次黄嘌呤与四种天然碱基 (A、G、C 和 U) 和三种磷酸二酯键骨架 (3'-3'、2'-3'、2'-2') 组合的含次黄嘌呤的 CDNs 的合成。IFN-β 诱导结果表明,所有由次黄嘌呤和嘌呤核苷连接的 2'-3' 和 2'-2' CDNs 有利于与 hSTING 蛋白的 Y167 和 R238 残基堆积相互作用,并且由次黄嘌呤和嘧啶构建的几种 CDNs 也可以激活所有五种 hSTING 变体。分子动力学模拟和等温滴定量热法 (ITC) 测定进一步证明了具有 2'-5' 磷酸的 cAIMP 异构体形成氢键的潜力与 hSTING 的 R232 和 R238 残基以熵驱动的方式与 cGAMP 异构体相比。开发新型含次黄嘌呤的 CDNs 作为 hSTING 变体的免疫治疗激活剂将是有希望的。
