Design, Synthesis, and Chemical and Biological Properties of Cyclic ADP-4-Thioribose as a Stable Equivalent of Cyclic ADP-Ribose.

Messenger (Los Angeles, Calif. : Print) Pub Date : 2014-06-01 DOI:10.1166/msr.2014.1035

Takayoshi Tsuzuki, Satoshi Takano, Natsumi Sakaguchi, Takashi Kudoh, Takashi Murayama, Takashi Sakurai, Minako Hashii, Haruhiro Higashida, Karin Weber, Andreas H Guse, Tomoshi Kameda, Takatsugu Hirokawa, Yasuhiro Kumaki, Mitsuhiro Arisawa, Barry V L Potter, Satoshi Shuto

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Abstract

Here we describe the successful synthesis of cyclic ADP-4-thioribose (cADPtR, 3), designed as a stable mimic of cyclic ADP-ribose (cADPR, 1), a Ca²⁺-mobilizing second messenger, in which the key N1-β-thioribosyladenosine structure was stereoselectively constructed by condensation between the imidazole nucleoside derivative 8 and the 4-thioribosylamine 7 via equilibrium in 7 between the α-anomer (7α) and the β-anomer (7β) during the reaction course. cADPtR is, unlike cADPR, chemically and biologically stable, while it effectively mobilizes intracellular Ca²⁺ like cADPR in various biological systems, such as sea urchin homogenate, NG108-15 neuronal cells, and Jurkat T-lymphocytes. Thus, cADPtR is a stable equivalent of cADPR, which can be useful as a biological tool for investigating cADPR-mediated Ca²⁺-mobilizing pathways.

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环状 ADP-4-Thioribose 作为环状 ADP-Ribose 的稳定等价物的设计、合成及其化学和生物特性。

在这里，我们描述了环状 ADP-4-thioribose (cADPtR, 3) 的成功合成，它被设计为环状 ADP-ribose (cADPR, 1) 的稳定模拟物，环状 ADP-ribose 是一种 Ca2+ 移动的第二信使、其中关键的 N1-β-thioribosyladenosine 结构是通过咪唑核苷衍生物 8 和 4-thioribosylamine 7 在反应过程中在α-异构体（7α）和β-异构体（7β）之间的平衡缩合立体选择性地构建的。与 cADPR 不同的是，cADPtR 具有化学和生物稳定性，同时它与 cADPR 一样能在各种生物系统（如海胆匀浆、NG108-15 神经元细胞和 Jurkat T 淋巴细胞）中有效调动细胞内 Ca2+。因此，cADPtR 是一种稳定的 cADPR 等效物，可作为研究 cADPR 介导的 Ca2+ 动员途径的有用生物工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Messenger (Los Angeles, Calif. : Print)

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