Camaioni E, Boyer J L, Mohanram A, Harden T K, Jacobson K A
Molecular Recognition Section, National Institute of Diabetes, Digestive and Kidney Diseases, National Institutes of Health, Bethesda, Maryland 20892-0810, USA.
J Med Chem. 1998 Jan 15;41(2):183-90. doi: 10.1021/jm970433l.
Adenosine 3',5'- and 2',5'-bisphosphates previously were demonstrated to act as competitive antagonists at the P2Y1 receptor (Boyer et al. Mol. Pharmacol. 1996, 50, 1323-1329). 2'- and 3'-Deoxyadenosine bisphosphate analogues containing various structural modifications at the 2- and 6-positions of the adenine ring, on the ribose moiety, and on the phosphate groups have been synthesized with the goal of developing more potent and selective P2Y1 antagonists. Single-step phosphorylation reactions of adenosine nucleoside precursors were carried out. The activity of each analogue at P2Y1 receptors was determined by measuring its capacity to stimulate phospholipase C in turkey erythrocyte membranes (agonist effect) and to inhibit phospholipase C stimulation elicited by 10 nM 2-MeSATP (antagonist effect). Both 2'- and 3'-deoxy modifications were well tolerated. The N6-methyl modification both enhanced antagonistic potency (IC50 330 nM) of 2'-deoxyadenosine 3',5'-bisphosphate by 17-fold and eliminated residual agonist properties observed with the lead compounds. The N6-ethyl modification provided intermediate potency as an antagonist, while the N6-propyl group completely abolished both agonist and antagonist properties. 2-Methylthio and 2-chloro analogues were partial agonists of intermediate potency. A 2'-methoxy group provided intermediate potency as an antagonist while enhancing agonist activity. An N1-methyl analogue was a weak antagonist with no agonist activity. An 8-bromo substitution and replacement of the N6-amino group with methylthio, chloro, or hydroxy groups greatly reduced the ability to interact with P2Y1 receptors. Benzoylation or dimethylation of the N6-amino group also abolished or greatly diminished the antagonist activity. In summary, our results further define the structure-activity of adenosine bisphosphates as P2Y1 receptor antagonists and have led to the identification of the most potent antagonist reported to date for this receptor.
3',5'-二磷酸腺苷和2',5'-二磷酸腺苷先前已被证明可作为P2Y1受体的竞争性拮抗剂(Boyer等人,《分子药理学》,1996年,第50卷,第1323 - 1329页)。为了开发更有效和更具选择性的P2Y1拮抗剂,已经合成了在腺嘌呤环的2位和6位、核糖部分以及磷酸基团上含有各种结构修饰的2'-和3'-脱氧腺苷二磷酸类似物。进行了腺苷核苷前体的单步磷酸化反应。通过测量每种类似物刺激火鸡红细胞膜中磷脂酶C的能力(激动剂效应)以及抑制10 nM 2-甲硫基三磷酸腺苷引起的磷脂酶C刺激的能力(拮抗剂效应)来确定其在P2Y1受体上的活性。2'-和3'-脱氧修饰都具有良好的耐受性。N6-甲基修饰使2'-脱氧腺苷3',5'-二磷酸的拮抗效力(IC50为330 nM)提高了17倍,并消除了先导化合物中观察到的残留激动剂特性。N6-乙基修饰作为拮抗剂具有中等效力,而N6-丙基则完全消除了激动剂和拮抗剂特性。2-甲硫基和2-氯类似物是中等效力的部分激动剂。2'-甲氧基作为拮抗剂具有中等效力,同时增强了激动剂活性。N1-甲基类似物是一种弱拮抗剂,没有激动剂活性。8-溴取代以及用甲硫基、氯或羟基取代N6-氨基大大降低了与P2Y1受体相互作用的能力。N6-氨基的苯甲酰化或二甲基化也消除或大大降低了拮抗剂活性。总之,我们的结果进一步确定了二磷酸腺苷作为P2Y1受体拮抗剂的构效关系,并导致鉴定出了迄今为止报道的该受体最有效的拮抗剂。