Department of Pharmacology, Juntendo University School of Medicine , Bunkyo-ku, Tokyo 113-8421, Japan.
Computational Biology Research Center, National Institute of Advanced Industrial Science and Technology (AIST) , Aomi, Koutou-ku, Tokyo 135-0064, Japan.
J Med Chem. 2017 Jul 13;60(13):5868-5875. doi: 10.1021/acs.jmedchem.7b00540. Epub 2017 Jul 3.
A series of 8-substituted analogues of cyclic ADP-4-thioribose (cADPtR, 3), which is a stable equivalent of Ca-mobilizing second messenger cyclic ADP-ribose (cADPR, 1), were designed as potential pharmacological tools for studies on cADPR-modulated Ca signaling pathways. These 8-amino analogue (8-NH-cADPtR, 4), 8-azido analogue (8-N-cADPtR, 5), and 8-chloro analogue (8-Cl-cADPtR, 6) were efficiently synthesized, where the stereoselective N1-β-thioribosyladenine ring closure reaction via an α/β-equilibrium of the 1-aminothioribose derivative and construction of the characteristic 18-membered pyrophosphate ring by Ag-promoted activation of a phenyl phosphorothioate type substrate were the two key steps. Although 8-NH-cADPR (2) is a well-known potent antagonist against cADPR-inducing Ca-release, the 4-thioribose congener 8-NH-cADPtR turned out unexpectedly to be a full agonist in sea urchin egg homogenate evaluation system. This important finding suggested that the ring-oxygen in the N1-ribose of cADPR analogues is essential for the antagonistic activity in the Ca-signaling pathway, which can contribute to clarify the structure-agonist/antagonist activity relationship.
我们设计了一系列环 ADP-4-硫代核糖(cADPtR,3)的 8 位取代类似物,作为研究 cADPR 调节的 Ca 信号通路的潜在药理学工具,cADPtR 是一种稳定的 Ca 动员第二信使环 ADP-核糖(cADPR,1)类似物。这些 8-氨基类似物(8-NH-cADPtR,4)、8-叠氮类似物(8-N-cADPtR,5)和 8-氯类似物(8-Cl-cADPtR,6)被高效合成,其中通过 1-氨基硫代核糖衍生物的α/β 平衡进行 N1-β-硫代核糖基腺苷环封闭反应,以及通过 Ag 促进苯膦酸硫酯型底物的活化构建特征的 18 元焦磷酸环,是两个关键步骤。虽然 8-NH-cADPR(2)是一种众所周知的强效 cADPR 诱导 Ca 释放拮抗剂,但出乎意料的是,4-硫代核糖同系物 8-NH-cADPtR 在海胆卵匀浆评价系统中是一种完全激动剂。这一重要发现表明,cADPR 类似物中 N1-核糖的环氧原子对于 Ca 信号通路中的拮抗活性是必不可少的,这有助于阐明结构-激动剂/拮抗剂活性关系。
