二肌苷五磷酸(IP5I)是重组大鼠P2X1受体的强效拮抗剂。
Diinosine pentaphosphate (IP5I) is a potent antagonist at recombinant rat P2X1 receptors.
作者信息
King B F, Liu M, Pintor J, Gualix J, Miras-Portugal M T, Burnstock G
机构信息
Autonomic Neuroscience Institute, Royal Free & University College Medical School, Royal Free Campus, Rowland Hill Street, Hampstead, London NW3 2PF, UK.
出版信息
Br J Pharmacol. 1999 Nov;128(5):981-8. doi: 10.1038/sj.bjp.0702876.
Abstract
- The antagonist activity of a series of diinosine polyphosphates (IpnI, where n=3, 4, 5) was assessed against ATP-activated inward currents at rat P2X(1-4) receptors expressed in Xenopus oocytes and studied under voltage-clamp conditions. 2. Diinosine polyphosphates were prepared by the enzymatic degradation of their corresponding diadenosine polyphosphates (e.g., Ap5A into Ip5I) using 5'-adenylic deaminase, and purified using reverse-phase chromatography. 3. Against ATP-responses at rP2X1 receptors, the potency order for antagonism was (pIC50): Ip5I (8.5)>Ip4I (6.3)>Ip3I (>4.5). Ip5I (10-100 nM) caused a concentration-dependent rightwards displacement of the ATP concentration-response curve without reducing the maximum ATP effect. However, the Schild plot was non-linear which indicated Ip5I is not a competitive antagonist. Blockade by micromolar concentrations of Ip5I was not surmountable. Ip4I also behaved as a non-surmountable antagonist. 4. Against ATP-responses at rP2X3 receptors, the potency order for antagonism was (pIC50): Ip4I (6. 0)>Ip5I (5.6)>Ip3I (>4.5). Blockade by Ip4I (pA2, 6.75) and Ip5I (pA2, 6.27) was surmountable at micromolar concentrations. 5. Diinosine polyphosphates failed to inhibit ATP-responses at rP2X2 receptors, whereas agonist responses at rP2X4 were reversibly potentiated by Ip4I and Ip5I. None of the parent diadenosine polyphosphates behave as antagonists at rP2X1 - 4 receptors. 6. Thus, Ip5I acted as a potent and relatively-selective antagonist at the rP2X1 receptor. This dinucleotide pentaphosphate represents a high-affinity antagonist for the P2X1 receptor, at which it acts in a competitive manner at low (</=100 nM) concentrations but has more complex actions at higher (>100 nM) concentrations.
摘要
- 评估了一系列二肌苷多磷酸盐(IpnI,其中n = 3、4、5)对非洲爪蟾卵母细胞中表达的大鼠P2X(1 - 4)受体上ATP激活的内向电流的拮抗活性,并在电压钳条件下进行研究。2. 二肌苷多磷酸盐通过使用5'-腺苷酸脱氨酶对其相应的二腺苷多磷酸盐(例如,Ap5A转化为Ip5I)进行酶促降解来制备,并使用反相色谱法进行纯化。3. 对于rP2X1受体上的ATP反应,拮抗效力顺序为(pIC50):Ip5I(8.5)> Ip4I(6.3)> Ip3I(> 4.5)。Ip5I(10 - 100 nM)导致ATP浓度 - 反应曲线浓度依赖性向右位移,而不降低最大ATP效应。然而,Schild图是非线性的,这表明Ip5I不是竞争性拮抗剂。微摩尔浓度的Ip5I引起的阻断是不可克服的。Ip4I也表现为不可克服的拮抗剂。4. 对于rP2X3受体上的ATP反应,拮抗效力顺序为(pIC50):Ip4I(6.0)> Ip5I(5.6)> Ip3I(> 4.5)。微摩尔浓度下,Ip4I(pA2,6.75)和Ip5I(pA2,6.27)引起的阻断是可克服的。5. 二肌苷多磷酸盐未能抑制rP2X2受体上的ATP反应,而Ip4I和Ip5I可使rP2X4受体上的激动剂反应可逆性增强。亲本二腺苷多磷酸盐在rP2X1 - 4受体上均不表现为拮抗剂。6. 因此,Ip5I在rP2X1受体上作为一种强效且相对选择性的拮抗剂起作用。这种二核苷酸五磷酸盐是P2X1受体的高亲和力拮抗剂,在低(≤100 nM)浓度下以竞争性方式起作用,但在高(> 100 nM)浓度下具有更复杂的作用。
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