Urazaev Albert K, Grossfeld Robert M, Lieberman Edward M
Department of Biological Sciences, Purdue University, West Lafayette, Indiana, USA.
J Neurochem. 2005 May;93(3):605-10. doi: 10.1111/j.1471-4159.2005.03041.x.
Glutamate carboxypeptidase II (GCPII), a glial ectoenzyme, is responsible for N-acetylaspartylglutamate (NAAG) hydrolysis. Its regulation in crayfish nervous tissue was investigated by examining uptake of [3H]glutamate derived from N-acetylaspartyl-[3H]glutamate ([3H]NAAG) to measure GCPII activity. Electrical stimulation (100 Hz, 10 min) during 30 min incubation with [3H]NAAG increased tissue [3H]glutamate tenfold. This was prevented by 2-(phosphonomethyl)-pentanedioic acid (2-PMPA), a GCPII inhibitor, suggesting that stimulation increased the hydrolysis of [3H]NAAG and metabolic recycling of [3H]glutamate. Antagonists of glial group II metabotropic glutamate receptors (mGLURII), NMDA receptors and acetylcholine (ACh) receptors that mediate axon-glia signaling in crayfish nerve fibers decreased the effect of stimulation by 58-83%, suggesting that glial receptor activation leads to stimulation of GCPII activity. In combination, they reduced [3H]NAAG hydrolysis during stimulation to unstimulated control levels. Agonist stimulation of mGLURII mimicked the effect of electrical stimulation, and was prevented by antagonists of GCPII or mGLURII. Raising extracellular K+ to three times the normal level stimulated [3H]NAAG release and GCPII activity. These effects were also blocked by antagonists of GCPII and mGLUR(II). No receptor antagonist or agonist tested or 2-PMPA affected uptake of [3H]glutamate. We conclude that NAAG released from stimulated nerve fibers activates its own hydrolysis via stimulation of GCPII activity mediated through glial mGLURII, NMDA and ACh receptors.
谷氨酸羧肽酶II(GCPII)是一种神经胶质外切酶,负责N - 乙酰天冬氨酰谷氨酸(NAAG)的水解。通过检测源自N - 乙酰天冬氨酰 - [3H]谷氨酸([3H]NAAG)的[3H]谷氨酸摄取来研究其在小龙虾神经组织中的调节,以测量GCPII活性。在与[3H]NAAG孵育30分钟期间进行电刺激(100Hz,10分钟),可使组织中的[3H]谷氨酸增加十倍。这被GCPII抑制剂2 -(膦酰甲基)-戊二酸(2 - PMPA)所阻止,表明刺激增加了[3H]NAAG的水解和[3H]谷氨酸的代谢循环。介导小龙虾神经纤维轴突 - 神经胶质信号传导的神经胶质II型代谢型谷氨酸受体(mGLURII)、NMDA受体和乙酰胆碱(ACh)受体的拮抗剂使刺激效果降低了58 - 83%,表明神经胶质受体激活会导致GCPII活性的刺激。它们共同作用,可将刺激期间的[3H]NAAG水解降低至未刺激的对照水平。mGLURII的激动剂刺激模拟了电刺激的效果,并被GCPII或mGLURII的拮抗剂所阻止。将细胞外K + 提高到正常水平的三倍可刺激[3H]NAAG释放和GCPII活性。这些作用也被GCPII和mGLUR(II)的拮抗剂所阻断。所测试的任何受体拮抗剂、激动剂或2 - PMPA均不影响[3H]谷氨酸的摄取。我们得出结论,受刺激的神经纤维释放的NAAG通过刺激由神经胶质mGLURII、NMDA和ACh受体介导的GCPII活性来激活其自身的水解。
