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胶质谷氨酸转运体在塑造攀缘纤维-浦肯野细胞突触处的兴奋性突触后电流中的作用。

Roles of glial glutamate transporters in shaping EPSCs at the climbing fiber-Purkinje cell synapses.

作者信息

Takatsuru Yusuke, Takayasu Yukihiro, Iino Masae, Nikkuni Osamu, Ueda Yuto, Tanaka Kohichi, Ozawa Seiji

机构信息

Department of Neurophysiology, Gunma University Graduate School of Medicine, Maebashi, Gunma 371-8511, Japan.

出版信息

Neurosci Res. 2006 Feb;54(2):140-8. doi: 10.1016/j.neures.2005.11.002. Epub 2005 Dec 27.

DOI:10.1016/j.neures.2005.11.002
PMID:16377014
Abstract

Glial glutamate transporters, GLAST and GLT-1, are co-localized in processes of Bergmann glia (BG) wrapping excitatory synapses on Purkinje cells (PCs). Although GLAST is expressed six-fold more abundantly than GLT-1, no change is detected in the kinetics of climbing fiber (CF)-mediated excitatory postsynaptic currents (CF-EPSCs) in PCs in GLAST(-/-) mice compared to the wild-type mice (WT). Here we aimed to clarify the mechanism(s) underlying this unexpected finding using a selective GLT-1 blocker, dihydrokainate (DHK), and a novel antagonist of glial glutamate transporter, (2S,3S)-3-[3-(4-methoxybenzoylamino)benzyloxy]aspartate (PMB-TBOA). In the presence of cyclothiazide (CTZ), which attenuates the desensitization of AMPA receptors, DHK prolonged the decay time constant (tau(w)) of CF-EPSCs in WT, indicating that GLT-1 plays a partial role in the removal of glutamate. The application of 100 nM PMB-TBOA, which inhibited CF-mediated transporter currents in BG by approximately 80%, caused no change in tau(w) in WT in the absence of CTZ, whereas it prolonged tau(w) in the presence of CTZ. This prolonged value of tau(w) was similar to that in GLAST(-/-) mice in the presence of CTZ. These results indicate that glial glutamate transporters can apparently retain the fast decay kinetics of CF-EPSCs if a small proportion ( approximately 20%) of functional transporters is preserved.

摘要

胶质谷氨酸转运体GLAST和GLT-1共同定位于围绕浦肯野细胞(PC)上兴奋性突触的伯格曼胶质细胞(BG)的突起中。尽管GLAST的表达量比GLT-1高6倍,但与野生型小鼠(WT)相比,在GLAST基因敲除小鼠(GLAST(-/-))的PC中,攀缘纤维(CF)介导的兴奋性突触后电流(CF-EPSCs)的动力学未检测到变化。在这里,我们旨在使用选择性GLT-1阻滞剂二氢 kainate(DHK)和一种新型的胶质谷氨酸转运体拮抗剂(2S,3S)-3-[3-(4-甲氧基苯甲酰胺基)苄氧基]天冬氨酸(PMB-TBOA)来阐明这一意外发现背后的机制。在存在可减弱AMPA受体脱敏的环噻嗪(CTZ)的情况下,DHK延长了WT中CF-EPSCs的衰减时间常数(tau(w)),表明GLT-1在谷氨酸清除中起部分作用。应用100 nM的PMB-TBOA可使BG中CF介导的转运体电流抑制约80%,在不存在CTZ的情况下,WT中的tau(w)没有变化,而在存在CTZ的情况下,它延长了tau(w)。这种延长的tau(w)值与存在CTZ时GLAST(-/-)小鼠中的相似。这些结果表明,如果保留一小部分(约20%)功能性转运体,胶质谷氨酸转运体显然可以保持CF-EPSCs的快速衰减动力学。

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