P2X1 启动的 p38 信号传导增强血栓素 A2 诱导的血小板分泌和聚集。
P2X1-initiated p38 signalling enhances thromboxane A2-induced platelet secretion and aggregation.
作者信息
Huang Z, Liu P, Zhu L, Li N, Hu H
机构信息
Nailin Li, MD, PhD, FAHA, Karolinska Institute, Department of Medicine-Solna, Clinical Pharmacology Unit, Karolinska University Hospital-Solna, SE-171 76 Stockholm, SWEDEN, E-mail:
Hu Hu, MD, PhD, Department of Pathology & Pathophysiology, Zhejiang University School of Medicine, Hangzhou, China, E-mail:
出版信息
Thromb Haemost. 2014 Jul 3;112(1):142-50. doi: 10.1160/TH13-09-0726. Epub 2014 Mar 13.
ATP released by activated platelets can serve as a positive feedback machinery to amplify platelet responses by activating P2X1 receptors. It has, however, not been defined how P2X1 activities influence thromboxane A2 (TXA2)-stimulated platelet functional responses. Our aim was to elaborate the molecular mechanisms of P2X1 engagements in TXA2-induced platelet secretion and aggregation. P2X1 inhibition by 1 µM NF449 inhibited platelet P-selectin expression induced by a low concentration of the TXA2 analogue U46619 (0.3 µM) (32.0 ± 2.0% vs 43.4 ± 3.0%; n=5; p<0.05). p38 inhibition by SB203580, but not ERK inhibition by U0126, elicited a similar inhibition by NF499. The combination of NF449 and SB203580 provided, however, no additive effects. U46619-induced platelet aggregation was similarly decreased by NF449 and SB203580 alone or in combination, and by P2X1 pre-desensitisation with α,β-Me-ATP. U46619 caused rapid and reversible P2X1-dependent p38 phosphorylation. However, the P2X1-p38 pathway mainly enhanced mild platelet activation by U46619, because α,β-Me-ATP supplementation or p38 blockade had no effect on intense platelet activation induced by a higher concentration of U46619 (3 µM). In conclusion, P2X1 activation, via p38 signalling, potentiates platelet activation initiated by low doses of U46619. Hence, the P2X1-induced p38 signalling promotes more robust platelet activation in response to mild platelet stimuli.
活化血小板释放的三磷酸腺苷(ATP)可作为一种正反馈机制,通过激活P2X1受体来放大血小板反应。然而,P2X1活性如何影响血栓素A2(TXA2)刺激的血小板功能反应尚未明确。我们的目的是阐明P2X1参与TXA2诱导的血小板分泌和聚集的分子机制。1 μM NF449抑制P2X1可抑制低浓度TXA2类似物U46619(0.3 μM)诱导的血小板P选择素表达(32.0 ± 2.0% 对43.4 ± 3.0%;n = 5;p < 0.05)。SB203580抑制p38可引发与NF449类似的抑制作用,但U0126抑制细胞外信号调节激酶(ERK)则无此作用。然而,NF449和SB203580联合使用并无叠加效应。单独或联合使用NF449和SB203580,以及用α,β-甲基ATP(α,β-Me-ATP)对P2X1进行预脱敏,均可类似地降低U46619诱导的血小板聚集。U46619可引起快速且可逆的P2X1依赖性p38磷酸化。然而,P2X1-p38途径主要增强了U46619引起的轻度血小板活化,因为补充α,β-Me-ATP或阻断p38对高浓度U46619(3 μM)诱导的强烈血小板活化并无影响。总之,P2X1通过p38信号通路的激活可增强低剂量U46619引发的血小板活化。因此,P2X1诱导的p38信号通路可促进血小板对轻度刺激产生更强有力的活化反应。
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