P2受体拮抗剂PPADS对谷氨酸/N-甲基-D-天冬氨酸毒性具有神经保护作用。

P2 receptor antagonist PPADS confers neuroprotection against glutamate/NMDA toxicity.

作者信息

Lin Yanpeng, Desbois Angele, Jiang Susan, Hou Sheng T

机构信息

Department of Clinical Neurological Sciences, The No 252 Hospital of P.L.A., 81 Huayuan Street, Baoding City 071000, Hebei Province, PR China.

出版信息

Neurosci Lett. 2005 Mar 29;377(2):97-100. doi: 10.1016/j.neulet.2004.11.075. Epub 2004 Dec 19.

DOI:10.1016/j.neulet.2004.11.075

PMID:15740844

Abstract

The present study investigated the role of pyridoxal phosphate-6-azophenyl-2',4'-disulfonic acid tetrasodium salt (PPADS), a P2 receptor antagonist, in protecting mouse cerebellar granule neurons (CGNs) against glutamate/NMDA-induced neuronal death. Neurotoxicity caused by 50 microM glutamate or 200 microM NMDA was significantly reduced in CGNs treated with PPADS. Such neuroprotection was in a time- and dose-dependent manner. The possibility that PPADS may block glutamate/NMDA-mediated intracellular Ca2+ influx to CGNs was investigated using temperature-controlled platereader measurements of fluorescence intensity of CGNs loaded with Ca2+-sensitive fluorescent dye Fluo-4AM. Interestingly, the rapid increase of calcium influx following glutamate/NMDA treatment was not significantly affected by prior treatment with PPADS. In contrast, MK801, a specific NMDA receptor antagonist, completely blocked intracellular Ca2+ influx. Taken together, these data suggest that inhibition of the P2 receptor may directly modulate NMDA receptor-mediated neurotoxicity through a Ca2+-independent mechanism.

摘要

本研究调查了P2受体拮抗剂磷酸吡哆醛-6-偶氮苯-2',4'-二磺酸四钠盐（PPADS）在保护小鼠小脑颗粒神经元（CGNs）免受谷氨酸/ NMDA诱导的神经元死亡中的作用。在用PPADS处理的CGNs中，由50微摩尔谷氨酸或200微摩尔NMDA引起的神经毒性显著降低。这种神经保护作用呈时间和剂量依赖性。使用温度控制的酶标仪测量加载有钙敏荧光染料Fluo-4AM的CGNs的荧光强度，研究了PPADS可能阻断谷氨酸/ NMDA介导的CGNs细胞内Ca2+内流的可能性。有趣的是，谷氨酸/ NMDA处理后钙内流的快速增加并未受到PPADS预处理的显著影响。相比之下，特异性NMDA受体拮抗剂MK801完全阻断了细胞内Ca2+内流。综上所述，这些数据表明，抑制P2受体可能通过一种不依赖Ca2+的机制直接调节NMDA受体介导的神经毒性。

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P2受体拮抗剂PPADS对谷氨酸/N-甲基-D-天冬氨酸毒性具有神经保护作用。

P2 receptor antagonist PPADS confers neuroprotection against glutamate/NMDA toxicity.

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