P2X(3)受体脱敏恢复的激动剂依赖性为其快速上调或下调提供了一种新颖且灵敏的方法。
Agonist-dependence of recovery from desensitization of P2X(3) receptors provides a novel and sensitive approach for their rapid up or downregulation.
作者信息
Sokolova Elena, Skorinkin Andrei, Fabbretti Elsa, Masten Lara, Nistri Andrea, Giniatullin Rashid
机构信息
Sector of Neurobiology, International School for Advanced Studies (SISSA), 34014 Trieste, Italy.
出版信息
Br J Pharmacol. 2004 Mar;141(6):1048-58. doi: 10.1038/sj.bjp.0705701. Epub 2004 Feb 23.
Abstract
- Fast-desensitizing P2X(3) receptors of nociceptive dorsol root ganglion (DRG) neurons are thought to mediate pain sensation. Since P2X(3) receptor efficiency is powerfully modulated by desensitization, its underlying properties were studied with patch-clamp recording. 2. On rat cultured DRG neurons, 2 s application of ATP (EC(50)=1.52 microm), ADP (EC(50)=1.1 microm) or alpha,beta-meATP (EC(50)=1.78 microm) produced similar inward currents that fully desensitized, at the same rate, back to baseline. Recovery from desensitization was much slower after ATP and ADP than after alpha,beta-meATP and, in all cases, it had sigmoidal time course. 3. By alternating the application of ATP and alpha,beta-meATP, we observed complete cross-desensitization indicating that these agonists activated the same receptors. This notion was confirmed by the similar antagonism induced by 2', 3'-O-(2,4,6,trinitrophenyl)-adenosine triphosphate (TNP-ATP). 4. Recovery from desensitization elicited by ATP was unexpectedly shaped by transient application of alpha,beta-methylene-adenosine triphosphate (alpha,beta-meATP), and vice versa. Thus, short-lasting, full desensitization produced by alpha,beta-meATP protected receptors from long-lasting desensitization induced by subsequent ATP applications. ATP and ADP had similar properties of recovery from desensitization. 5. Low nm concentrations of alpha,beta-meATP (unable to evoke membrane currents) could speed up recovery from ATP-induced desensitization, while low nm concentrations of ATP enhanced it. Ambient ATP levels were found to be in the pm range (52+/-3 pm). 6. The phenomenon of cross-desensitization and protection was reproduced by rP2X(3) receptors expressed by rat osteoblastic cell 17/2.8 or human embryonic kidney cell 293 cells, indicating P2X(3) receptor specificity. 7. It is suggested that transient application of an agonist that generates rapid recovery from desensitization, is a novel, powerful tool to modulate P2X(3) receptor responsiveness to the natural agonist ATP.
摘要
- 伤害性背根神经节(DRG)神经元的快速脱敏P2X(3)受体被认为可介导痛觉。由于P2X(3)受体的效能受到脱敏作用的强烈调节,因此采用膜片钳记录法对其潜在特性进行了研究。2. 在大鼠培养的DRG神经元上,施加2秒的ATP(半数有效浓度[EC(50)]=1.52微摩尔)、ADP(EC(50)=1.1微摩尔)或α,β-甲烯基三磷酸腺苷(α,β-meATP,EC(50)=1.78微摩尔)会产生相似的内向电流,这些电流会以相同的速率完全脱敏回到基线水平。ATP和ADP脱敏后的恢复比α,β-meATP慢得多,并且在所有情况下,恢复过程都呈S形时间进程。3. 通过交替施加ATP和α,β-meATP,我们观察到完全交叉脱敏,表明这些激动剂激活了相同的受体。2',3'-O-(2,4,6-三硝基苯基)-三磷酸腺苷(TNP-ATP)诱导的相似拮抗作用证实了这一观点。4. 由ATP引起的脱敏恢复出乎意料地受到短暂施加α,β-亚甲基三磷酸腺苷(α,β-meATP)的影响,反之亦然。因此,α,β-meATP产生的短暂、完全脱敏可保护受体免受随后ATP施加诱导的长期脱敏。ATP和ADP具有相似的脱敏恢复特性。5. 低纳摩尔浓度的α,β-meATP(无法引起膜电流)可加速ATP诱导的脱敏恢复,而低纳摩尔浓度的ATP则增强这种恢复。发现环境ATP水平在皮摩尔范围内(52±3皮摩尔)。6. 大鼠成骨细胞17/2.8或人胚肾细胞293细胞表达的rP2X(3)受体重现了交叉脱敏和保护现象,表明P2X(3)受体具有特异性。7. 有人提出,短暂施加一种能从脱敏中快速恢复的激动剂,是一种调节P2X(3)受体对天然激动剂ATP反应性的新型有力工具。
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