Bolam J P, Powell J F, Wu J Y, Smith A D
J Comp Neurol. 1985 Jul 1;237(1):1-20. doi: 10.1002/cne.902370102.
An antibody to glutamate decarboxylase has been used in a light and electron microscopic study of the neostriatum of rats that had received intracerebral injections of colchicine. In the light microscope, neuronal perikarya and small punctate structures that displayed immunoreactivity were found. The perikarya could be divided into two classes based on their sizes: small-to-medium-sized and large. Proximal dendrites, axon initial segments, and axon collaterals were occasionally stained. When the nuclei of the neurons were visible, they possessed indentations. The immunoreactive punctate structures were spread evenly throughout the neostriatum but occasionally were associated with immunoreactive and nonimmunoreactive perikarya. When the same sections were examined in the electron microscope, the small-to-medium-sized immunoreactive perikarya were found to be similar in morphology and synaptic input to a class of Golgi-impregnated neuron that has been previously shown to accumulate locally administered, radiolabelled gamma-aminobutyric acid. Neurons with the ultrastructural characteristics of typical striatonigral neurons did not display immunoreactivity. As neurons in this pathway probably contain gamma-aminobutyric acid, it is possible that our procedure or our antibody does not stain all gamma-aminobutyric-acid-containing structures in the neostriatum. A total of 404 immunoreactive punctate structures were examined by correlated light and electron microscopy or by electron microscopy alone. They were identified as immunoreactive axonal boutons and each of them, when examined in serial sections, displayed typical synaptic specialisations. Membrane specialisations were always of the symmetrical type. At least five distinct targets of the immunoreactive terminals were identified: neurons that were themselves immunoreactive for glutamate decarboxylase; the immunoreactive terminals made synaptic contact with all parts of the neurons examined, i.e., perikarya, proximal dendrites, and axon initial segments. Neurons identified by Golgi impregnation of the same sections as medium-sized and densely spiny; the immunoreactive terminals made contact predominantly with the perikarya and dendritic shafts. Large neurons found only in the ventral caudate-putamen, whose somata and dendrites were ensheathed in immunoreactive terminals. Medium-sized nonimmunoreactive perikarya that possessed nuclear indentations. Large nonimmunoreactive perikarya that had the typical structural features of striatal cholinergic neurons.(ABSTRACT TRUNCATED AT 250 WORDS)
一种谷氨酸脱羧酶抗体已被用于对接受脑室内注射秋水仙碱的大鼠新纹状体进行光镜和电镜研究。在光镜下,发现了神经元胞体和显示免疫反应性的小斑点状结构。胞体可根据其大小分为两类:中小型和大型。近端树突、轴突起始段和轴突侧支偶尔会被染色。当神经元的细胞核可见时,它们有凹陷。免疫反应性斑点状结构均匀分布于整个新纹状体,但偶尔与免疫反应性和非免疫反应性胞体相关。当在电镜下检查相同切片时,发现中小型免疫反应性胞体在形态和突触输入方面与一类先前已显示能积累局部注射的放射性标记γ-氨基丁酸的高尔基浸染神经元相似。具有典型纹状体黑质神经元超微结构特征的神经元未显示免疫反应性。由于该通路中的神经元可能含有γ-氨基丁酸,有可能我们的方法或抗体并未对新纹状体中所有含γ-氨基丁酸的结构进行染色。通过相关光镜和电镜或单独电镜检查了总共404个免疫反应性斑点状结构。它们被鉴定为免疫反应性轴突终扣,并且在连续切片检查时,每个终扣都显示出典型的突触特化。膜特化总是对称型的。至少确定了免疫反应性终末的五个不同靶点:自身对谷氨酸脱羧酶有免疫反应性的神经元;免疫反应性终末与所检查神经元的所有部分即胞体、近端树突和轴突起始段形成突触联系。通过对与中型且多棘的相同切片进行高尔基浸染鉴定的神经元;免疫反应性终末主要与胞体和树突干接触。仅在尾状核-壳核腹侧发现的大型神经元,其胞体和树突被免疫反应性终末包裹。具有核凹陷的中型非免疫反应性胞体。具有纹状体胆碱能神经元典型结构特征的大型非免疫反应性胞体。(摘要截短于250词)
