Framework of the enteric nerve plexuses: an immunocytochemical study in the guinea pig jejunum using an antiserum to S-100 protein.

S Kobayashi, M Suzuki, T Endo, S Tsuji, E E Daniel
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Abstract

Immunostained sections and whole-mount preparations of the layers of the guinea pig jejunum were investigated by an improved peroxidase-antiperoxidase method using an antiserum to S-100 protein. A delicate latticework of S-100 protein immunopositive glial cells was demonstrated extending in the longitudinal muscle layer, myenteric or Auerbach's plexus, circular muscle layer including the deep muscular plexus, submucous layer including the submucous or Meissner's plexus, lamina muscularis mucosae and lamina propria mucosae. The whole enteric nerve plexuses consisted of two subsystems; nerve plexuses of the muscular coat and those of the submucous and mucous coats. These two subsystems were joined to each other by thick, connecting branches perforating the inner circular muscle layer. Extrinsic nerves entering the myenteric plexus formed a specialized junctional structure containing S-100 protein immunopositive glial cells, whereas those entering the submucous plexus ran along the submucous arteries. We proposed the term enteroglial cells to designate the S-100 protein immunopositive cells which ensheathed the somata and processes of the enteric neurons. The frameworks of all structures in the enteric nerve plexuses from the largest ganglia to the thinnest nerve fasciculi were constructed of these enteroglial cells. A spectrum of the enteroglial cells was presented. Those in the myenteric and submucous ganglia were found similar to the astroglia of the central nervous system and to the satellite cells in the peripheral ganglia. Those in the primary and secondary fasciculi of the myenteric plexus formed a kind of neuropil together with the neuronal processes. Those in the tertiary fasciculi of the muscular coat formed the framework of the autonomic ground plexus. We tentatively concluded that the interstitial cells of Cajal contain an immunoreactivity for S-100 protein, and thus are glial in nature. The occurrence of specialized enteroglial cells with a neuron-like function was discussed in the autonomic ground plexus of the muscular coat. In the lamina propria mucosae, there was a fine latticework of the S-100 protein immunopositive enteroglial cells. This latticework corresponded to that of the interstitial cells of Cajal in the villous and periglandular plexuses.

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肠神经丛的结构:利用S-100蛋白抗血清在豚鼠空肠中的免疫细胞化学研究。
采用改良过氧化物酶-抗过氧化物酶法,利用S-100蛋白抗血清对豚鼠空肠各层进行免疫染色切片和全贴装制备。S-100蛋白免疫阳性胶质细胞在纵肌层、肌丛或奥尔巴赫神经丛、圆形肌肉层(包括深肌丛)、粘膜下层(包括粘膜下或迈斯纳神经丛)、粘膜层和固有粘膜层中呈精致的网状结构。整个肠神经丛由两个子系统组成;肌层的神经丛以及粘膜下和粘膜层的神经丛。这两个子系统通过穿过内部圆形肌肉层的粗壮的连接分支相互连接。进入肌肠丛的外源性神经形成含有S-100蛋白免疫阳性胶质细胞的特殊连接结构,而进入粘膜下丛的外源性神经则沿粘膜下动脉行进。我们提出肠胶质细胞(enteroglial cells)一词来描述包裹在肠神经元体细胞和突起上的S-100蛋白免疫阳性细胞。从最大的神经节到最薄的神经束,所有肠神经丛的结构框架都是由这些肠小胶质细胞构成的。给出了肠小胶质细胞的光谱。肌肠和粘膜下神经节的细胞与中枢神经系统的星形胶质细胞和外周神经节的卫星细胞相似。肌丛初级束和次级束内的神经元与神经元突形成一种神经丘。肌层的第三束形成了自主基底神经丛的框架。我们初步得出Cajal间质细胞对S-100蛋白具有免疫反应性,因此具有胶质性质。本文讨论了在肌被的自主基底丛中具有神经元样功能的特化肠胶质细胞的发生。在固有层粘膜内,可见S-100蛋白免疫阳性肠小胶质细胞的网状结构。这种格子结构与绒毛丛和腺周丛Cajal间质细胞的格子结构一致。
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