A light and electron microscopic study of the metabotropic glutamate receptor mGluR1a in the normal and kainate-lesioned rat hippocampus.

W Y Ong, T M Lim, L J Garey
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引用次数: 6

Abstract

The distribution of the metabotropic glutamate receptor mGluR1a was studied in the normal and kainate-lesioned rat hippocampus using a monoclonal (MAb) and a polyclonal antibody to mGluR1a. Many labeled nonpyramidal neurons were observed in the stratum oriens of CA1 in sections incubated with MAb. In comparison, fewer labeled neurons were observed in this layer in sections incubated with polyclonal antibody. Many nonpyramidal neurons were observed in the stratum lucidum of CA3 and the hilus of the dentate gyrus, with both antibodies. The cell bodies of pyramidal neurons were unlabeled. A dense network of labeled processes was observed in the neuropil of the CA fields at electron microscopy. Some dendrites were very densely labeled and did not contain dendritic spines. These were identified as dendrites of nonpyramidal neurons. Other dendrites contained lightly labeled dendritic shafts, but densely labeled dendritic spines, and were identified as dendrites of pyramidal neurons. Intravenous kainate injections resulted in destruction of pyramidal neurons and a massive decrease in mGluR1a immunoreactivity in the CA fields. This decrease was obvious even at 1-5 d postinjection, when the nonpyramidal neurons in the stratum oriens remained densely labeled, suggesting that pyramidal neurons contributed significantly to mGluR1a staining in the CA fields. We conclude that the dendritic spines of hippocampal pyramidal neurons contain mGluR1a, even though little staining is observed in their parent dendritic shafts or cell bodies.

正常和盐损伤大鼠海马中代谢性谷氨酸受体mGluR1a的光镜和电镜研究。
利用mGluR1a单克隆抗体和mGluR1a多克隆抗体研究了代谢性谷氨酸受体mGluR1a在正常和盐损伤大鼠海马中的分布。单克隆抗体孵育的CA1细胞中有许多标记的非锥体神经元。相比之下,在多克隆抗体孵育的切片中,在这一层中观察到的标记神经元较少。在CA3透明层和齿状回门部可见许多非锥体神经元,两种抗体均存在。锥体神经元细胞体未标记。电镜下观察到在CA场的神经pil中有一个密集的标记过程网络。有些树突标记非常密集,不含树突棘。这些被鉴定为非锥体神经元的树突。其他的树突含有轻度标记的树突轴,但密集标记的树突棘,被鉴定为锥体神经元的树突。静脉注射海因酸盐导致锥体神经元的破坏和CA区mGluR1a免疫反应性的大量降低。即使在注射后1-5 d,这种减少也很明显,此时东地层非锥体神经元仍然密集标记,表明锥体神经元对CA区mGluR1a染色有重要贡献。我们得出结论,海马锥体神经元的树突棘含有mGluR1a,即使在其亲本树突轴或细胞体中观察到很少染色。
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