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通过降低谷氨酸释放概率和可释放囊泡数量,腺苷能抑制幼年大鼠内嗅皮层的谷氨酸能传递。

Adenosinergic depression of glutamatergic transmission in the entorhinal cortex of juvenile rats via reduction of glutamate release probability and the number of releasable vesicles.

机构信息

Department of Pharmacology, School of Medicine and Health Sciences, University of North Dakota, Grand Forks, North Dakota, United States of America.

出版信息

PLoS One. 2013 Apr 16;8(4):e62185. doi: 10.1371/journal.pone.0062185. Print 2013.

Abstract

Adenosine is an inhibitory neuromodulator that exerts antiepileptic effects in the brain and the entorhinal cortex (EC) is an essential structure involved in temporal lobe epilepsy. Whereas microinjection of adenosine into the EC has been shown to exert powerful antiepileptic effects, the underlying cellular and molecular mechanisms in the EC have not been determined yet. We tested the hypothesis that adenosine-mediated modulation of synaptic transmission contributes to its antiepileptic effects in the EC. Our results demonstrate that adenosine reversibly inhibited glutamatergic transmission via activation of adenosine A1 receptors without effects on GABAergic transmission in layer III pyramidal neurons in the EC. Adenosine-induced depression of glutamatergic transmission was mediated by inhibiting presynaptic glutamate release probability and decreasing the number of readily releasable vesicles. Bath application of adenosine also reduced the frequency of the miniature EPSCs recorded in the presence of TTX suggesting that adenosine may interact with the exocytosis processes downstream of Ca(2+) influx. Both Gαi/o proteins and the protein kinase A pathway were required for adenosine-induced depression of glutamatergic transmission. We further showed that bath application of picrotoxin to the EC slices induced stable epileptiform activity and bath application of adenosine dose-dependently inhibited the epileptiform activity in this seizure model. Adenosine-mediated depression of epileptiform activity was mediated by activation of adenosine A1 receptors and required the functions of Gαi/o proteins and protein kinase A pathway. Our results suggest that the depression of glutamatergic transmission induced by adenosine contributes to its antiepileptic effects in the EC.

摘要

腺苷是一种抑制性神经调质,在大脑和内嗅皮层(EC)中发挥抗癫痫作用,而内嗅皮层是参与颞叶癫痫的重要结构。虽然已经证明向 EC 中微注射腺苷会产生强大的抗癫痫作用,但尚未确定其在 EC 中的潜在细胞和分子机制。我们测试了以下假设:即腺苷介导的突触传递调制有助于其在 EC 中的抗癫痫作用。我们的研究结果表明,腺苷通过激活 A1 受体可逆地抑制谷氨酸能传递,而对 EC 中 III 层锥体神经元的 GABA 能传递没有影响。腺苷诱导的谷氨酸能传递抑制是通过抑制突触前谷氨酸释放概率和减少易释放囊泡的数量来介导的。腺苷的细胞外施加还降低了在 TTX 存在下记录的微小 EPSC 的频率,这表明腺苷可能与 Ca(2+)流入下游的胞吐过程相互作用。Gαi/o 蛋白和蛋白激酶 A 途径都需要腺苷诱导的谷氨酸能传递抑制。我们进一步表明,向 EC 切片施加 picrotoxin 会诱导稳定的癫痫样活动,并且腺苷的细胞外施加剂量依赖性地抑制该癫痫模型中的癫痫样活动。腺苷介导的癫痫样活动抑制是通过激活 A1 受体和需要 Gαi/o 蛋白和蛋白激酶 A 途径的功能来介导的。我们的研究结果表明,腺苷诱导的谷氨酸能传递抑制有助于其在 EC 中的抗癫痫作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd7a/3628342/70d390c5d4ca/pone.0062185.g001.jpg

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